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0 1 2 3 4 5 6 7
x 104
105
106
107
Average Weekday Traffic (AWT)
Ann
ual C
ost (
CH
F/k
m)
1500 0−5%1500 5−15%1500 15−25%1750 0−5%1750 5−15%1750 15−25%2000 0−5%2000 5−15%2000 15−25%2250 0−5%2250 5−15%2250 15−25%2500 0−5%2500 5−15%2500 15−25%
Design diagrams for road infrastructure elements:High capacity roads
Salil SharmaKay W. Axhausen
Arbeitsberichte Verkehrs- und Raumplanung 559Transport and Spatial Planning July 2009
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Design diagrams for road infrastructure elements: High capacity roads July 2009
Working paper Transport and Spatial Planning 559
Design diagrams for road infrastructure elements: High ca-pacity roads
Salil SharmaIIT GuwahatiGuwahati - 781039Assam, Indiaphone: +91-99546-04244fax:[email protected]
Kay W. AxhausenIVTETHCH - 8093 Zurichphone: +41-44-633-3943fax: [email protected]
July 2009
Abstract
In this paper, the details for the design of road infrastructure elements, including their reliabilityare provided. This design is based on travel time, its uncertainty, and associated generalizedcosts of the road user. The paper presents the methodology developed by Bernard and Axhausen(2007), which deals with this approach. It allows the construction of the design diagrams torepresent annual generalized costs of the road user for relevant values of volume and trafficflow compositions. The methodology is evaluated for Swiss motorways in order to examine itsapplicability for the practical uses. As a result, the scope of the methodology is observed to belimited in the current formulation because of the behavior of schedule delay costs of the roaduser.
KeywordsDesign diagram; Road infrastructure; High capacity roads; Generalized costs of the road users;Value of travel time savings
Preferred citation styleSharma, S. and K.W. Axhausen (2009) Design diagrams for road infrastructure elements: Highcapacity roads, Arbeitsberichte Verkehrs- und Raumplanung, 559, Institute for Transport Plan-ning and Systems (IVT), ETH Zurich, Zurich.
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Design diagrams for road infrastructure elements: High capacity roads July 2009
1 Introduction
In Bernard and Axhausen (2007) and Bernard (2008) a highway design concept has beendeveloped, which treats highway cross section capacity and traffic flow as random variables.Capacity and demand are assumed to vary over very short time period. This short termvariation is assumed to follow a normal distribution in both the cases. The choice of highwaydesign is based on the travel times, their variabilities, the values of travel time savings, andon the valuations of the travel time reliability. The methodology is suitable for the design ofinfrastructure elements, for which travel times and delays can be calculated, which in turn aresummarized into the generalized costs of the road users, which include both travel time costsand schedule delay costs (early or late delays). The minimum input data requirements arehourly saturation values based on standard demand profiles, capacity estimates, and occupancyrates. To improve the estimates, the share of heavy goods vehicles (trucks, transporters, busses)should be known. If location specific data for any of these items are available, they can be used.
The methodology allows separate calculations of generalized costs for individual motor-ized traffic and heavy goods traffic. Instead of the previous reliance on a single design volume,say 30th hour, this methodology evaluates the generalized costs encountered across all hours ofthe year. In this way, the methodology avoids cost underestimates or cost overestimates due tothe one selected hour. The difference in generalized costs of the road user between the currentconditions and the various alternatives is the design criterion.
The purpose of this paper is to produce design diagrams derived from the annual gener-alized costs of the road user, which have been calculated for Swiss motorways. These designdiagrams will serve as practical aids to assess the difference between generalized costs of theroad user on existing infrastructure and the costs involved in investments for construction ormodification of road infrastructure elements. The design diagrams will show the characteristicsof annual generalized costs of the road user in terms of specified cross section capacity of themotorway and traffic flow observed on the motorway.
This paper is organized as follows: Section 2 provides an overview of the methodology.The necessary parameters for the methodology are currently available only for motorways;thus, subsequent section 3 and 4 analyze it for Swiss motorways (i.e., for 2 lane and 3 laneroadways). Section 5 presents the design diagrams for annual generalized costs. The lastsection concludes the paper with an evaluation of the methodology.
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Design diagrams for road infrastructure elements: High capacity roads July 2009
2 Methodology
The methodology is discussed in the following subsections; the discussion provides the param-eters which were estimated for Swiss motorways. The necessary count data were provided bySwiss Federal Roads Authority (ASTRA, 2003); 13 motorway sites were chosen of which 11sites had a vmax = 120 kmph and 2 sites a vmax = 100 kmph. The costs are calculated on acontinuous scale in units of Swiss Francs and the system is comparable to a points rationingsystem (Bernard and Axhausen, 2007).
2.1 Breakdown probability
A traffic breakdown is the transitions from free to congested flow (i.e., from the upper branchto the lower branch of speed-volume fundamental diagram (Transportation Research Board,2000). The breakdown probability is the product of the distribution of the prevailing traffic flowtogether with the distribution of the capacity (Bernard and Axhausen, 2007). The breakdownprobability for a given saturation rate can be taken from figure [1] or approximated with thefollowing formula:
Pb =1
1 + eα−β.a60[1]
where,
Pb = Breakdown Probabilitya60 = 60-min saturation rate: a60 = Q60/Lsv=0, hourly demand volume Q60 di-
vided by the cross-section capacity Lsv=0 for zero heavy goods vehicles (seeSN 640 018a)
α, β = Parameters (see table [1])
Table 1: Parameters for formula [1]:
Share of heavy goods vehicles α β0 – 5% 11.593 8.8065 – 15% 11.987 9.36115 – 25% 11.481 9.578
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Figure 1: Mean breakdown probability as function of saturation rate a60 and share of heavygoods vehicles (in classes: 0 - 5 %, 5 - 15 % and 15 - 25 %)
0.5 0.6 0.7 0.8 0.9 1 1.10
0.02
0.04
0.06
0.08
0.1
0.12
0.14
0.16
a60
Pb
0 − 5%5 − 15%15 −25%
The exact breakdown probability can also be calculated with the mean (µR) and standard devi-ation (σR) of the reserve capacity, R (which is defined as R = C−Q, where C is Capacity andQ is traffic flow), especially when for fc, fs, or sd(a) values other than those tabulated beloware chosen:
Pb(β) =1√2π
∫ −β
−∞e−
12x2
dx [2]
where, β is defined as reliability index (coefficient of variation) = µR
σR. The mean (µR) and the
standard deviation (σR) of the reserve capacity are given as:
µR
Lsv=0
= fc − a60 [3]
σR
Lsv=0
=
√fs
2 + sd(a)2 [4]
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Design diagrams for road infrastructure elements: High capacity roads July 2009
where,
µR = Mean of the reserve capacity in [Fz/h]σR = Standard deviation of the reserve capacity in [Fz/h]fc, fs = Parameters (see table [2])sd(a) = Standard deviation of the saturation rate a60 can be taken from figure [2] or
calculated as:
sd(a) = −0.5166.a604 + 1.0046.a60
3 − 0.6864.a602 + 0.2561.a60 + 0.0125 [5]
Please note, that for a60 < 50% the breakdown probability can be assumed to be zero.
Table 2: Parameters for formulae [3] and [4]:
Share of heavy goods vehicles fc fs
0 – 5% 1.3305 0.19915 – 15% 1.2885 0.180515 – 25% 1.2004 0.1658
Figure 2: Mean standard deviation of the saturation rate sd(a) given a60
0 0.2 0.4 0.6 0.8 10
0.01
0.02
0.03
0.04
0.05
0.06
0.07
0.08
0.09
a60
sd(a
)
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2.2 Speed without breakdowns
The speed vm is the expected speed of a vehicle during undisturbed flow for a given volume tocapacity ratio. This speed vm must be distinguished from the free speed v0 which describes themaximmum (allowed) speed of a road. To estimate this speed vm those observed intervals wereselected which were not affected by a breakdown (Bernard and Axhausen, 2007). It can eitherbe taken from figure [3] or calculated with the BPR-function of Transportation research Board(2000):
vm =v0
1 + α.a60β
[6]
where,
vm = Mean speed without breakdowns in [km/h]v0 = Mean free flow speed in [km/h] (see table [3])α, β = Parameters (see table [3])
Table 3: Parameters for formula [6]:
Motorways with a speed limit Motorways with a speed limitof 120 km/h of 100 km/hmIV HGV mIV HGV
α 0.194 0.119 0.370 0.236β 3.344 1.700 4.656 4.566v0 115.2 96.4 94.4 84.6
2.3 Ratio fmb
The driver’s expected speed needs to account for other factors (e.g., traffic volume, weather, andlight condition) influencing driver’s behavior. In case of a breakdown, travel time will increaseas travel speed will drop down for its duration. The methodology uses ratio fmb to assess thereduced speed during a breakdown (vb = fmb.vm). Here, vb represents reduced speed duringbreakdown (Bernard and Axhausen, 2007). The methodology suggests the calculation of ratiofmb with the figure [4] or with:
fmb = c + δ.a60 +γ
1 + eα−β.a60[7]
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Figure 3: Mean speed for flow without breakdowns vm as a function of a60 for mIV and HGVon motorways with speed limits of 100 and 120 kmph
0 0.2 0.4 0.6 0.8 10
20
40
60
80
100
120
a60
Vm
in k
mph
120 kmph mIV100 kmph mIV100 kmph HGV120 kmph HGV
where,
α, β, γ, δ, c = Parameters (see table [4])
Table 4: Parameters for formula [7]:
Motorways with a speed Motorways with a speed Motorways with a speedlimit of 120 km/h limit of 100 km/h limit of 100 km/h
(Modified Parameters)mIV HGV mIV HGV mIV HGV
α 3.638 3.055 -31.38 -4.129 -3.38 -4.129β 9.223 7.901 -83.61 -18.79 -10.61 -12.79γ -0.511 -0.596 0.457 0.388 0.457 0.388δ 0.415 0.425 0.432 0.321 0.432 0.321c 0.630 0.762 0.127 0.285 0.127 0.285
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Figure 4: Ratio fmb, of the speed during a breakdown to the speed without breakdown as afunction a60 for mIV and HGV on motorways with speed limits of 100 and 120 km/h
0 0.2 0.4 0.6 0.8 10
0.1
0.2
0.3
0.4
0.5
0.6
0.7
0.8
a60
f mb
120 km/h mIV120 km/h HGV100 km/h mIV100 km/h HGV
The plot for ratio fmb (see figure [4]), which is showing a sharp kink for 100 kmph case, ismodified by changing the parameters α and β (see table [4] and figure [5]). A parallel analysisof the generalized cost calculations (see section [2.8]) is carried out, but only a very slightdifference between previous costs and the newly calculated costs is observed. The analysisshows that the new curve fits well and can replace the previous curve suggested in the originalpaper (Bernard and Axhausen, 2007). In this paper, the design diagrams (see figures [16] to[21] and appendices [B] and [C]) are produced with modified parameters for fmb (see table [4]).
2.4 Mean breakdown duration
In case of a breakdown, the undisturbed travel speed vm drops down to reduced speed duringa breakdown vb, given by a factor fmb (see section [2.3]). The breakdown event is of a certainduration; thus, the duration of breakdown is measured from the instant when a speed drop ob-served in vm to the instant when two consecutive 5-minute intervals with average speeds greaterthan the critical speed are observed (Bernard and Axhausen, 2007). The mean breakdown du-ration tb in [h] can be taken from figure [6] or calculated with:
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Figure 5: Modified relationship among fmb, a60, number of lanes, and speed limit:
0 0.2 0.4 0.6 0.8 10
0.1
0.2
0.3
0.4
0.5
0.6
0.7
0.8
a60
f mb
120 km/h mIV120 km/h HGV100 km/h mIV100 km/h HGV
tb = c +γ
1 + eα−β.a60[8]
where,
α, β, γ, c = Parameters (see table [5])
For saturation rates of a60 ≤ 65% on motorways with a speed limit of 120 km/h tb can beassumed to be 0.707 h and as tb = 1.066h for those with a speed limit of 100 km/h.
Table 5: Parameters for formula [8]:
Motorways with a speed limit Motorways with a speed limitof 120 km/h of 100 km/h
α 12.39 17.95β 34.16 45.37γ 0.340 0.901c 0.368 0.165
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Figure 6: Mean breakdown duration tb in [h] as a function of a60
0 0.2 0.4 0.6 0.8 1 1.20
0.2
0.4
0.6
0.8
1
a60
t b in h
120 km/h100 km/h
2.5 Expected speed
The total travel time resulting from both free flow time and congested time is dependent on thedistance traveled. Thus, expected speed will be including free travel speed and the expectedproportion of congestion. According to Bernard and Axhausen, (2007) with Tm being the totaltime (over a year) during which flows of a given volume to capacity ratio are not affected bythe breakdowns and Tb, the sum of all durations of breakdowns for the same traffic volume.The expected speed can be written as:
Ev =Tm
Tm + Tb
vm +Tb
Tm + Tb
vb [9]
where, vm denotes the free speed not affected by breakdowns and vb the reduced speed duringbreakdowns. If times Tm and Tb can be written as Tm = nm.∆t and Tb = n′b.tb and if nm is thenumber of observed 5-minutes intervals (∆t = 5 min) with a free traffic flow and n′b the numberof observed breakdowns with the duration tb, then the breakdown probability can be written asPb = n′b/nm which results in the expression for expected speed:
Ev =1
1 + Pbtb∆t
vm +Pb
tb∆t
1 + Pbtb∆t
vb [10]
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or with fmb = vb/vm it can be calculated as:
Ev =∆t + Pbtbfmb
∆t + Pbtb.vm [11]
where,
Ev = Expected speed in [km/h];∆t = 1
12h; interval length for the estimate of Pb in [h]
2.6 Planned for mean speed
The planned for mean speed vp, in contrast to Ev, incorporates the willingness to pay:
vp =kfruh + kspat.Pb.
tb∆t
.fmb
kfruh + kspat.Pb.tb∆t
.vm [12]
where,
kfruh = Value of early delays in [CHF/Pers-h] (based on SN 641 825)kspat = Value of late delays in [CHF/Pers-h] (based on SN 641 825)Pb = Probability of breakdown (see section [2.1])vp = Planned for speed of the traveler in [km/h]vm = Mean speed without breakdown in [km/h] (see section [2.2])fmb = Ratio of mean speed with breakdown to mean speed without breakdowns
(see section [2.3])tb = Mean breakdown duration in [h] (see section [2.4])∆t = 1
12h; interval length for the estimate of Pb in [h]
2.7 Generalized costs of travel
The methodology adopts the concept of willingness to pay for reduction in travel time to mea-sure its benefit. This reduction in travel time is multiplied with the value of travel time savingsfor each user of the infrastructure element to compute the extra benefit. This approach is ex-tended. It includes that a higher willingness to pay exists to reduce late arrivals (e.g., due tocongestion) than to reduce travel time (Bernard and Axhausen, 2007). Thus, the generalizedcosts of travel of a person are calculated as the weighted sum of element specific travel times,early, and late delays:
Kp = kE.tE + (1− Pb).kfruh.tfruh + Pb.kspat.tspat [13]
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where,
Kp = Generalized cost of travel of a person [CHF]kE = Value of travel time of the expected travel time [CHF/Pers. h] (based on SN
641 822, SN 641 823, SN 641 827)kfruh = Value of early delays in [CHF/Pers-h] (based on SN 641 825)kspat = Value of late delays in [CHF/Pers-h] (based on SN641 825)tE = Expected travel time [h]tfruh = Early delay in [h] (= Expected travel time - Travel time without breakdowns)tspat = Late delays in [h] (= Travel time with breakdowns - Expected travel time)Pb = Probability of breakdown (see section [2.1])
The ratio of kfruh : kE : kspat is 1:2:3 as stipulated in SN 641 825.
2.8 Assessments of links of high capacity roads
The assessment is based on all hours of the year and all user of a link. The generalized costs oftravel per unit length are:
Kp,h
I= kE.
1
Ev
+∆t
∆t + Pbtbkfruh
(1
vp
− 1
vm
)+
Pbtb∆t + Pbtb
kspat
(1
fmb.vm
− 1
vp
)[14]
where,
Kp,h = Generalized cost per person-h [CHF]I = Link length in [km]Ev = Expected speed in [km/h] (see section 2.5)vp = Planned for speed of the traveler in [km/h] (see section 2.6)vm = Mean speed without breakdown in [km/h] (see section 2.2)fmb = Ratio of mean speed with breakdown to mean speed without breakdowns
(see section 2.3)tb = Mean breakdown duration in [h] (see section 2.4)∆t = 1
12h; interval length for the estimate of Pb in [h]
If there are data, respectively assumptions available for the share of heavy goods vehicles, thenKp,h have to be calculated separately for individual traffic and heavy goods traffic. Assumeone person per heavy goods vehicle.
The annual sum of the generalized costs is:
Ktot,a
I=
8760∑
h=1
Q60,h
((1− SV Ah)BGh
Kmivp,h
I+ SV Ah
KSVp,h
I
)[15]
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where,
Ktot,a = Total annual link generalized costs of travel [CHF]Q60,h = Demand volume of the hth hour of the yearSV Ah = Share of heavy good vehicles in hth hour [Pers/veh]BGh = Occupancy ratio for the hth hour [Pers/veh]Kmiv
p,h = Generalized costs of travel of a person in hth hour [CHF]KSV
p,h = Generalized costs of travel of a heavy goods vehicle in hth hour [CHF]
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3 Input data
The methodology presented above is evaluated for Swiss motorways. The data are suppliedby Swiss Association of Road and Transport Experts [SN 640 005b]. This standard presents7 weekly (168 hours) and 5 annual (12 months) demand profiles. The profiles are presentedas relative profiles (in terms of percent). The weekly profile is presented in percent of averageweekday traffic (AWT); the annual profile as percent of the average month. The weekly andannual profiles are integrated to obtain the traffic flow data for the whole year (8,760 hours).The integration is done on the assumption that the weekly traffic flow will be same for all theweeks of a particular month. The year is assumed to start from monday i.e., 1st day of January.For all other weeks which contain the days of a different month, the traffic flow is weighedaccordingly on the basis of number of days falling in each month. These profiles obtained areused as input to the methodology. The traffic flow data are then sorted in descending order.Unsorted annual traffic flow profile is shown in figure [7] and sorted annual traffic flow profileis shown in figure [8].
Figure 7: Example showing hourly flow variation for whole year - weekly profile 1 and annualprofile 1:
0 1000 2000 3000 4000 5000 6000 7000 8000 90000
5
10
15
20
25
Hour of the year
Mot
or v
ehic
les
in %
of A
WT
The average weekday traffic (AWT) is assumed to vary from 5,000 to 120,000. The high
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Figure 8: Example showing ranked hourly flow variation for whole year - sorted traffic flowvariation for weekly profile 1 and annual profile 1:
0 1000 2000 3000 4000 5000 6000 7000 8000 90000
5
10
15
20
25
Hours ranked by volume
Mot
or v
ehic
les
in %
of A
WT
range of average weekday traffic is observed in some locations in Switzerland (e.g., Muttenz,Hard (AB) and Baden, Bareggtunnel (AB)) (ASTRA, 2008). The 2 lane and 3 lane cases areevaluated separately. The separate cases for speed limits of 120 kmph and speed limit of 100kmph are considered. The three types of share of heavy goods vehicles are considered in theanalysis: 0 – 5%, 5 – 15%, and 15 – 25%. For calculations, the lower bound of the share ofheavy goods vehicles is used as SV Ah. The cross section capacity for motorways are assumedas 1500, 1750, 2000, 2250, and 2500 [veh/lane/h]. The occupancy ratio for the hth hour (BGh)is considered as 1.1. The willingness to pay figures are (see SN 641 825, SN 641 822, SN 641823 and SN 641 827):
mIV : kE = 19.74, kfruh = 9.87, and kspat = 29.61 [CHF/h-Pers]HGV : kE = 53.72, kfruh = 23.86, and kspat = 80.58 [CHF/h-Fz]
The HGV values incorporate both the willingness to pay of the senders (SN 641 823) and theoperating costs of vehicle (SN 641 827). The hourly generalized costs are calculated for eachhour of the year and then summed up for all hours of the year to obtain annual generalizedcosts. MATLAB is used to perform all the relevant calculations for annual generalized costs ofthe road user (MathWorks, 2009).
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4 Behavior of travel time costs and schedule delay costs ofthe road user
The methodology incorporates travel time, schedule delays, and associated costs to producethe assessment of road infrastructure elements in the form of generalized costs of the road user.This section discusses the behavior of schedule delay costs with respect to hourly saturationrate a60 as proposed by the methodology. The variables presented in the methodology are thefunctions of hourly saturation rate a60. Using hourly saturation rate a60 as the base parameter,we have analyzed the behavior of travel time costs and schedule delay costs. The functionsfor travel time costs (see formula [16]), early schedule delay costs (see formula [17]), and lateschedule delay costs (see formula [18]) are as follows:
Kt,h
I= kE.
1
Ev
[16]
where,
Kt,h = Costs associated with travel time per person-h [CHF]
and,
Ke,h
I=
∆t
∆t + Pbtbkfruh
(1
vp
− 1
vm
)[17]
where,
Ke,h = Early schedule delay cost per person-h [CHF]
and,
Kl,h
I=
Pbtb∆t + Pbtb
kspat
(1
fmb.vm
− 1
vp
)[18]
where,
Kl,h = Late schedule delay cost per person-h [CHF]
The plots for travel time costs are presented in figures [9] and [10] and travel time costs showexpected increasing behavior with respect to hourly saturation rate a60. The plots (see figures[12], [13], [14], and [15]) for schedule delay costs show a twist and schedule delay costs beginto decline after a specific value of hourly saturation rate a60. As, these above presented costs
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Design diagrams for road infrastructure elements: High capacity roads July 2009
Figure 9: Example showing behavior of travel time costs with respect to hourly saturation ratea60 for 100 kmph speed limit, 15 – 25% share of heavy goods vehicles, individualtraffic case:
0 0.5 1 1.5 2 2.50
0.5
1
1.5
2
2.5
3
3.5
a60
Tra
vel t
ime
cost
s (C
HF
/km
)
functions are the composites of continuous functions; thus, these costs functions will also becontinuous. First derivative test and second derivative test are applied to check the possibilityof maxima and behavior of the function. Let us consider the early schedule delay costs functionfor analysis (see formula [17]). The function is tested for 120 kmph speed limit, 0 – 5% shareof heavy goods vehicles, individual motorized traffic case, and for all a60 ∈ (0, 2).
f(a60) =∆t
∆t + Pbtbkfruh
(1
vp
− 1
vm
)[19]
where,
Pb(a60) =1
1 + e11.593−8.806.a60
tb(a60) = 0.368 +0.340
1 + e12.39−34.16.a60
vm(a60) =115.2
1 + 0.194.a603.344
fmb(a60) = 0.630 + 0.415.a60 +−0.511
1 + e3.638−9.223.a60
17
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Design diagrams for road infrastructure elements: High capacity roads July 2009
vp(a60) =9.87 + 29.61.Pb(a60).
tb(a60)∆t
.fmb(a60)
9.87 + 29.61.Pb(a60).tb(a60)
∆t
.vm(a60)
The derivative of the equation [19] is defined continuously over the interval i.e., at each pointof interval the function f(a60) is continuous and differentiable. According to first derivativetest, for a function f which is differentiable in a neighborhood of x, if there exists a positivenumber r such that for every y such that x − r < y < x, we have f ′(y) > 0, and for every y
such that x < y < x + r, we have f ′(y) < 0, then function f has a local maximum at x. Afterapplying first derivative test and second derivative test, the results are:
f ′(a60) = 0 ⇒ a60 = 1.0344
f ′(1.0343) = 1.1420e− 004 ⇒ f ′(1.0343) > 0
f ′(1.0345) = −7.7604e− 005 ⇒ f ′(1.0345) < 0
f ′′(1.0344) = −0.9590
Second derivative test confirms that maxima exists at a60 = 1.0344 and
f(1.0344) = 0.023 ⇒ f(1.0344) ≥ f(a60) ∀ a60 ∈ (0, 2)
the above analysis shows that function f(a60) (see equation [19]) will have global maximumat a60 = 1.0344. The critical values of hourly saturation rate a60, for which the schedule delaycosts showing a twist pattern (occurrence of maxima), are estimated for different cases usingMATLAB (MathWorks, 2009) and tabulated in tables [6] and [7]:
Table 6: Critical values of hourly saturation rate a60 for motorways with a speed limit of 120kmph:
mIV HGVEarly delay Late delay Early delay Late delay
0 – 5% 1.034 1.014 1.009 0.99125 – 15% 1.017 0.9988 0.9938 0.978415 – 25% 0.9448 0.9272 0.9248 0.9106
However, the annual generalized costs seem to increase (see figure [11]) with respect to averageweekday traffic because the travel time costs are always observed in an increasing fashion andthe area under the graph of schedule delay costs is also increasing; therefore, it will incorporatepositive changes in the annual generalized costs pattern. The behavior of schedule delay costsrestricts the applicability of the methodology beyond a definite value of hourly saturation ratea60. In this paper, the methodology is applied for Swiss motorways within the above mentioned
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Design diagrams for road infrastructure elements: High capacity roads July 2009
limits (see tables [6] and [7]) and design diagrams (see next section [5]) are produced aftermaking these considerations.
Table 7: Critical values of hourly saturation rate a60 for motorways with a speed limit of 100kmph:
mIV HGVEarly delay Late delay Early delay Late delay
0 – 5% 1.001 0.9786 0.9853 0.96985 – 15% 0.9834 0.9638 0.9692 0.955415 – 25% 0.9076 0.8883 0.8938 0.8803
Figure 10: Example showing behavior of travel time costs with respect to hourly saturation ratea60 for 100 kmph speed limit, 15 – 25% share of heavy goods vehicles, heavy goodstraffic case:
0 0.5 1 1.5 2 2.50
1
2
3
4
5
6
7
a60
Tra
vel t
ime
cost
s (C
HF
/km
)
19
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Design diagrams for road infrastructure elements: High capacity roads July 2009
Figure 11: Example showing design diagram without considering the behavior of schedule de-lay costs of the road user for weekly profile 1, annual profile 1, speed limit 100km/h, and number of lanes 3:
0 2 4 6 8 10 12
x 104
105
106
107
108
109
1010
Average Weekday Traffic (AWT)
Ann
ual C
ost (
CH
F/k
m)
1500 0−5%1500 5−15%1500 15−25%1750 0−5%1750 5−15%1750 15−25%2000 0−5%2000 5−15%2000 15−25%2250 0−5%2250 5−15%2250 15−25%2500 0−5%2500 5−15%2500 15−25%
20
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Design diagrams for road infrastructure elements: High capacity roads July 2009
Figure 12: Example showing behavior of early schedule delay costs with respect to hourly sat-uration rate a60 for 100 kmph speed limit, 15 – 25% share of heavy goods vehicles,individual traffic case:
0 0.5 1 1.5 2 2.5−0.02
−0.01
0
0.01
0.02
0.03
0.04
a60
Ear
ly S
ched
ule
Del
ay C
osts
(m
IV)
21
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Design diagrams for road infrastructure elements: High capacity roads July 2009
Figure 13: Example showing behavior of early schedule delay costs with respect to hourly sat-uration rate a60 for 100 kmph speed limit, 15 – 25% share of heavy goods vehicles,heavy goods traffic case:
0 0.5 1 1.5 2 2.5−0.01
0
0.01
0.02
0.03
0.04
0.05
0.06
0.07
0.08
a60
Ear
ly S
ched
ule
Del
ay C
osts
(H
GV
)
22
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Design diagrams for road infrastructure elements: High capacity roads July 2009
Figure 14: Example showing behavior of late schedule delay costs with respect to hourly satu-ration rate a60 for 100 kmph speed limit, 15 – 25% share of heavy goods vehicles,individual traffic case:
0 0.5 1 1.5 2 2.5−0.02
−0.01
0
0.01
0.02
0.03
0.04
0.05
0.06
0.07
a60
Late
Sch
edul
e D
elay
Cos
ts (
mIV
)
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Design diagrams for road infrastructure elements: High capacity roads July 2009
Figure 15: Example showing behavior of late schedule delay costs with respect to hourly satu-ration rate a60 for 100 kmph speed limit, 15 – 25% share of heavy goods vehicles,heavy goods traffic case:
0 0.5 1 1.5 2 2.5−0.02
0
0.02
0.04
0.06
0.08
0.1
0.12
a60
Late
Sch
edul
e D
elay
Cos
ts (
HG
V)
24
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Design diagrams for road infrastructure elements: High capacity roads July 2009
5 Design diagrams
To assess the differences in the generalized costs of current conditions and various alternatives,the plots of annual generalized costs and average weekday traffic (AWT) are produced in twomanners; first, the plots for specified speed limit and number of lanes, and second, for specifiedshare of heavy goods vehicles and cross section capacity per lane. The cross section capacityper lane considered for both the cases are: 1500, 1750, 2000, 2250, and 2500 [veh/lane/h].
Figures [16] to [19] represent three different sets of lines. Each set represents one spec-ified share of heavy goods vehicles. The topmost set of lines represents 15 - 25% share ofheavy goods vehicles, the middle set represents 5 - 15% share of heavy goods vehicles, and thebottom set represents 0 - 5% share of heavy goods vehicles. Each set consists of 5 differentlines; each line represents annual cost for specified cross section capacity per lane. In eachset of lines, the topmost line represents 1500 [veh/lane/h] and the bottommost line represents2500 [veh/lane/h]. Figures [20] and [21] contain a set of 4 lines. Each line represents specificshare of heavy goods vehicles, cross section capacity per lane, speed limit, and number of lanes.
The actual design diagrams are produced for average weekday traffic varying from 0 to120,000. In order to provide more clear visualization, we have presented them in this paperconsidering the variation of average weekday traffic from 0 to 70,000.
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Design diagrams for road infrastructure elements: High capacity roads July 2009
Figure 16: Example showing design diagram for weekly profile 4, annual profile 1, speed limit120 km/h, and number of lanes 2:
0 1 2 3 4 5 6 7
x 104
105
106
107
Average Weekday Traffic (AWT)
Ann
ual C
ost (
CH
F/k
m)
1500 0−5%1500 5−15%1500 15−25%1750 0−5%1750 5−15%1750 15−25%2000 0−5%2000 5−15%2000 15−25%2250 0−5%2250 5−15%2250 15−25%2500 0−5%2500 5−15%2500 15−25%
26
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Design diagrams for road infrastructure elements: High capacity roads July 2009
Figure 17: Example showing design diagram for weekly profile 4, annual profile 1, speed limit120 km/h, and number of lanes 3:
0 1 2 3 4 5 6 7
x 104
105
106
107
Average Weekday Traffic (AWT)
Ann
ual C
ost (
CH
F/k
m)
1500 0−5%1500 5−15%1500 15−25%1750 0−5%1750 5−15%1750 15−25%2000 0−5%2000 5−15%2000 15−25%2250 0−5%2250 5−15%2250 15−25%2500 0−5%2500 5−15%2500 15−25%
27
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Design diagrams for road infrastructure elements: High capacity roads July 2009
Figure 18: Example showing design diagram for weekly profile 4, annual profile 1, speed limit100 km/h , and number of lanes 2:
0 1 2 3 4 5 6 7
x 104
105
106
107
Average Weekday Traffic (AWT)
Ann
ual C
ost (
CH
F/k
m)
1500 0−5%1500 5−15%1500 15−25%1750 0−5%1750 5−15%1750 15−25%2000 0−5%2000 5−15%2000 15−25%2250 0−5%2250 5−15%2250 15−25%2500 0−5%2500 5−15%2500 15−25%
28
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Design diagrams for road infrastructure elements: High capacity roads July 2009
Figure 19: Example showing design diagram for weekly profile 4, annual profile 1, speed limit100 km/h , and number of lanes 3:
0 1 2 3 4 5 6 7
x 104
105
106
107
Average Weekday Traffic (AWT)
Ann
ual C
ost (
CH
F/k
m)
1500 0−5%1500 5−15%1500 15−25%1750 0−5%1750 5−15%1750 15−25%2000 0−5%2000 5−15%2000 15−25%2250 0−5%2250 5−15%2250 15−25%2500 0−5%2500 5−15%2500 15−25%
29
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Design diagrams for road infrastructure elements: High capacity roads July 2009
Figure 20: Example showing design diagram for weekly profile 4, annual profile 1, share ofheavy goods vehicles 0%, cross section capacity 1750 [veh/lane/h]:
0 1 2 3 4 5 6 7
x 104
105
106
107
Average Weekday Traffic (AWT)
Ann
ual C
ost (
CH
F/k
m)
2Lane 100kmph3Lane 100kmph2Lane 120kmph3Lane 120kmph
30
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Design diagrams for road infrastructure elements: High capacity roads July 2009
Figure 21: Example showing design diagram for weekly profile 4, annual profile 1, share ofheavy goods vehicles 0%, cross section capacity 2000 [veh/lane/h]:
0 1 2 3 4 5 6 7
x 104
105
106
107
Average Weekday Traffic (AWT)
Ann
ual C
ost (
CH
F/k
m)
2Lane 100kmph3Lane 100kmph2Lane 120kmph3Lane 120kmph
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Design diagrams for road infrastructure elements: High capacity roads July 2009
6 Conclusions
We have presented design diagrams based on the methodology for Swiss motorways. Themethodology offers a way to integrate travel speed and random delays in to a cost benefitanalysis. It also provides a detailed description of effects that influence travel speed in contrastto existing design concept for motorways (Bernard and Axhausen, 2007). The design diagramsprovide an outlook to assess the differences between current conditions and various possiblealternatives.
A modification for the functional parameters of ratio fmb is proposed; it is observed thatthis modification has unnoticeable influence on the annual generalized costs of the road users.The limitations of the methodology have also come to notice. The behavior of schedule delaycosts narrows the applicability of the methodology for practical considerations. The limits arecalculated and presented for which the methodology works best and these limits are dependenton various factors: the type of traffic demand profile being input and resulting hourly saturationrate a60 of considered motorway. The next step will be to reestimate these schedule delay costcurves so that they remain valid across the relevant range of a60 between zero and two.
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Design diagrams for road infrastructure elements: High capacity roads July 2009
7 Acknowledgements
The authors would like to thank Bundesamt für Strassen, Bern for providing average dailytraffic and average weekday traffic data for the analysis.
The first author would like to express his deep sense of gratitude to Prof. Axhausen forproviding him an opportunity to work on interesting subject of highway design concept andguiding him throughout the project.
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Design diagrams for road infrastructure elements: High capacity roads July 2009
8 References
Bernard M. (2008) Entwicklung eines Bemessungskonzepts für Autobahnabschnitte unterBerücksichtigung der Zufallsgrößen Verkehrsnachfrage und Kapazität in der Risikoanalyse,Dissertation, ETH Zurich, Zurich.
Bernard, M. and K.W. Axhausen (2007) A highway design concept based on probabilistic op-erational reliability, paper presented at the 11th World Conference of Transport Research,Berkeley, June 2007.
Bundesamt für Strassen (ASTRA) (2008) Monats und Jahresmittel des 24 Stuendigen Verkehrs,2008, ASTRA, Bern.
Bundesamt für Strassen (ASTRA) (2003) Automatische Strassenverkehrszählung, 2003,ASTRA, Bern.
MathWorks (2009) MATLAB version 7.8.0.347, MathWorks, Natick.
Transportation Research Board (2000) Highway Capacity Manual 2000, National ResearchCouncil, Washington D.C.
Vereinigung Schweizerischer Strassenfachleute (VSS) (2009) SN 640 005b: Ganglinientypenund durchschnittlicher werktäglicher Verkehr, VSS, Zürich.
Vereinigung Schweizerischer Strassenfachleute (VSS) (2007) SN 641 827: Kosten-Nutzen-Analysen im Strassenverkehr, Betriebskosten von Strassenfahrzeugen, VSS, Zürich.
Vereinigung Schweizerischer Strassenfachleute (VSS) (2007) SN 641 823: Kosten-Nutzen-Analysen im Strassenverkehr, Zeitkosten im Güterverkehr, VSS, Zürich.
Vereinigung Schweizerischer Strassenfachleute (VSS) (2007) SN 641 822a: Kosten-Nutzen-Analysen im Strassenverkehr, Zeitkosten im Personenverkehr, VSS, Zürich.
Vereinigung Schweizerischer Strassenfachleute (VSS) (2006) SN 640 018a: Leistungsfähigkeit,Verkehrsqualität, Belastbarkeit, VSS, Zürich.
Vereinigung Schweizerischer Strassenfachleute (VSS) SN 641 825: Kosten-Nutzen-Analysenim Strassenverkehr, Bewertung und Abschätzung der Zuverlässigkeit, VSS, Zürich.
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Design diagrams for road infrastructure elements: High capacity roads July 2009
9 Appendix A: Annual traffic demand profiles
This section contains all annual traffic demand profiles derived from the integration of weeklyand annual profiles supplied by the standard (see section [3]).
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Design diagrams for road infrastructure elements: High capacity roads July 2009
Figure 22: Ranked hourly flow variation for weekly profile 1 and annual profile 1:
0 1000 2000 3000 4000 5000 6000 7000 8000 90000
5
10
15
20
25
Hours ranked by volume
Mot
or v
ehic
les
in %
of A
WT
Figure 23: Ranked hourly flow variation for weekly profile 1 and annual profile 2:
0 1000 2000 3000 4000 5000 6000 7000 8000 90000
2
4
6
8
10
12
14
16
18
20
Hours ranked by volume
Mot
or v
ehic
les
in %
of A
WT
36
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Design diagrams for road infrastructure elements: High capacity roads July 2009
Figure 24: Ranked hourly flow variation for weekly profile 1 and annual profile 3:
0 1000 2000 3000 4000 5000 6000 7000 8000 90000
5
10
15
20
25
30
35
40
Hours ranked by volume
Mot
or v
ehic
les
in %
of A
WT
Figure 25: Ranked hourly flow variation for weekly profile 1 and annual profile 4:
0 1000 2000 3000 4000 5000 6000 7000 8000 90000
5
10
15
20
25
Hours ranked by volume
Mot
or v
ehic
les
in %
of A
WT
37
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Design diagrams for road infrastructure elements: High capacity roads July 2009
Figure 26: Ranked hourly flow variation for weekly profile 1 and annual profile 5:
0 1000 2000 3000 4000 5000 6000 7000 8000 90000
5
10
15
20
25
30
35
Hours ranked by volume
Mot
or v
ehic
les
in %
of A
WT
Figure 27: Ranked hourly flow variation for weekly profile 2 and annual profile 1:
0 1000 2000 3000 4000 5000 6000 7000 8000 90000
2
4
6
8
10
12
14
16
Hours ranked by volume
Mot
or v
ehic
les
in %
of A
WT
38
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Design diagrams for road infrastructure elements: High capacity roads July 2009
Figure 28: Ranked hourly flow variation for weekly profile 2 and annual profile 2:
0 1000 2000 3000 4000 5000 6000 7000 8000 90000
2
4
6
8
10
12
14
16
Hours ranked by volume
Mot
or v
ehic
les
in %
of A
WT
Figure 29: Ranked hourly flow variation for weekly profile 2 and annual profile 3:
0 1000 2000 3000 4000 5000 6000 7000 8000 90000
5
10
15
20
25
30
Hours ranked by volume
Mot
or v
ehic
les
in %
of A
WT
39
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Design diagrams for road infrastructure elements: High capacity roads July 2009
Figure 30: Ranked hourly flow variation for weekly profile 2 and annual profile 4:
0 1000 2000 3000 4000 5000 6000 7000 8000 90000
2
4
6
8
10
12
14
16
18
20
Hours ranked by volume
Mot
or v
ehic
les
in %
of A
WT
Figure 31: Ranked hourly flow variation for weekly profile 2 and annual profile 5:
0 1000 2000 3000 4000 5000 6000 7000 8000 90000
5
10
15
20
25
Hours ranked by volume
Mot
or v
ehic
les
in %
of A
WT
40
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Design diagrams for road infrastructure elements: High capacity roads July 2009
Figure 32: Ranked hourly flow variation for weekly profile 3 and annual profile 1:
0 1000 2000 3000 4000 5000 6000 7000 8000 90000
2
4
6
8
10
12
Hours ranked by volume
Mot
or v
ehic
les
in %
of A
WT
Figure 33: Ranked hourly flow variation for weekly profile 3 and annual profile 2:
0 1000 2000 3000 4000 5000 6000 7000 8000 90000
2
4
6
8
10
12
Hours ranked by volume
Mot
or v
ehic
les
in %
of A
WT
41
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Design diagrams for road infrastructure elements: High capacity roads July 2009
Figure 34: Ranked hourly flow variation for weekly profile 3 and annual profile 3:
0 1000 2000 3000 4000 5000 6000 7000 8000 90000
2
4
6
8
10
12
14
16
18
20
Hours ranked by volume
Mot
or v
ehic
les
in %
of A
WT
Figure 35: Ranked hourly flow variation for weekly profile 3 and annual profile 4:
0 1000 2000 3000 4000 5000 6000 7000 8000 90000
2
4
6
8
10
12
14
Hours ranked by volume
Mot
or v
ehic
les
in %
of A
WT
42
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Design diagrams for road infrastructure elements: High capacity roads July 2009
Figure 36: Ranked hourly flow variation for weekly profile 3 and annual profile 5:
0 1000 2000 3000 4000 5000 6000 7000 8000 90000
2
4
6
8
10
12
14
16
18
Hours ranked by volume
Mot
or v
ehic
les
in %
of A
WT
Figure 37: Ranked hourly flow variation for weekly profile 4 and annual profile 1:
0 1000 2000 3000 4000 5000 6000 7000 8000 90000
1
2
3
4
5
6
7
8
9
10
Hours ranked by volume
Mot
or v
ehic
les
in %
of A
WT
43
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Design diagrams for road infrastructure elements: High capacity roads July 2009
Figure 38: Ranked hourly flow variation for weekly profile 4 and annual profile 2:
0 1000 2000 3000 4000 5000 6000 7000 8000 90000
1
2
3
4
5
6
7
8
9
10
Hours ranked by volume
Mot
or v
ehic
les
in %
of A
WT
Figure 39: Ranked hourly flow variation for weekly profile 4 and annual profile 3:
0 1000 2000 3000 4000 5000 6000 7000 8000 90000
2
4
6
8
10
12
14
16
18
Hours ranked by volume
Mot
or v
ehic
les
in %
of A
WT
44
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Design diagrams for road infrastructure elements: High capacity roads July 2009
Figure 40: Ranked hourly flow variation for weekly profile 4 and annual profile 4:
0 1000 2000 3000 4000 5000 6000 7000 8000 90000
2
4
6
8
10
12
Hours ranked by volume
Mot
or v
ehic
les
in %
of A
WT
Figure 41: Ranked hourly flow variation for weekly profile 4 and annual profile 5:
0 1000 2000 3000 4000 5000 6000 7000 8000 90000
5
10
15
Hours ranked by volume
Mot
or v
ehic
les
in %
of A
WT
45
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Design diagrams for road infrastructure elements: High capacity roads July 2009
Figure 42: Ranked hourly flow variation for weekly profile 5 and annual profile 1:
0 1000 2000 3000 4000 5000 6000 7000 8000 90000
2
4
6
8
10
12
14
16
Hours ranked by volume
Mot
or v
ehic
les
in %
of A
WT
Figure 43: Ranked hourly flow variation for weekly profile 5 and annual profile 2:
0 1000 2000 3000 4000 5000 6000 7000 8000 90000
5
10
15
Hours ranked by volume
Mot
or v
ehic
les
in %
of A
WT
46
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Design diagrams for road infrastructure elements: High capacity roads July 2009
Figure 44: Ranked hourly flow variation for weekly profile 5 and annual profile 3:
0 1000 2000 3000 4000 5000 6000 7000 8000 90000
5
10
15
20
25
30
Hours ranked by volume
Mot
or v
ehic
les
in %
of A
WT
Figure 45: Ranked hourly flow variation for weekly profile 5 and annual profile 4:
0 1000 2000 3000 4000 5000 6000 7000 8000 90000
2
4
6
8
10
12
14
16
18
20
Hours ranked by volume
Mot
or v
ehic
les
in %
of A
WT
47
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Design diagrams for road infrastructure elements: High capacity roads July 2009
Figure 46: Ranked hourly flow variation for weekly profile 5 and annual profile 5:
0 1000 2000 3000 4000 5000 6000 7000 8000 90000
5
10
15
20
25
Hours ranked by volume
Mot
or v
ehic
les
in %
of A
WT
Figure 47: Ranked hourly flow variation for weekly profile 6 and annual profile 1:
0 1000 2000 3000 4000 5000 6000 7000 8000 90000
5
10
15
Hours ranked by volume
Mot
or v
ehic
les
in %
of A
WT
48
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Design diagrams for road infrastructure elements: High capacity roads July 2009
Figure 48: Ranked hourly flow variation for weekly profile 6 and annual profile 2:
0 1000 2000 3000 4000 5000 6000 7000 8000 90000
2
4
6
8
10
12
14
Hours ranked by volume
Mot
or v
ehic
les
in %
of A
WT
Figure 49: Ranked hourly flow variation for weekly profile 6 and annual profile 3:
0 1000 2000 3000 4000 5000 6000 7000 8000 90000
5
10
15
20
25
30
Hours ranked by volume
Mot
or v
ehic
les
in %
of A
WT
49
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Design diagrams for road infrastructure elements: High capacity roads July 2009
Figure 50: Ranked hourly flow variation for weekly profile 6 and annual profile 4:
0 1000 2000 3000 4000 5000 6000 7000 8000 90000
2
4
6
8
10
12
14
16
18
Hours ranked by volume
Mot
or v
ehic
les
in %
of A
WT
Figure 51: Ranked hourly flow variation for weekly profile 6 and annual profile 5:
0 1000 2000 3000 4000 5000 6000 7000 8000 90000
5
10
15
20
25
Hours ranked by volume
Mot
or v
ehic
les
in %
of A
WT
50
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Design diagrams for road infrastructure elements: High capacity roads July 2009
Figure 52: Ranked hourly flow variation for weekly profile 7 and annual profile 1:
0 1000 2000 3000 4000 5000 6000 7000 8000 90000
2
4
6
8
10
12
Hours ranked by volume
Mot
or v
ehic
les
in %
of A
WT
Figure 53: Ranked hourly flow variation for weekly profile 7 and annual profile 2:
0 1000 2000 3000 4000 5000 6000 7000 8000 90000
2
4
6
8
10
12
Hours ranked by volume
Mot
or v
ehic
les
in %
of A
WT
51
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Design diagrams for road infrastructure elements: High capacity roads July 2009
Figure 54: Ranked hourly flow variation for weekly profile 7 and annual profile 3:
0 1000 2000 3000 4000 5000 6000 7000 8000 90000
2
4
6
8
10
12
14
16
18
20
Hours ranked by volume
Mot
or v
ehic
les
in %
of A
WT
Figure 55: Ranked hourly flow variation for weekly profile 7 and annual profile 4:
0 1000 2000 3000 4000 5000 6000 7000 8000 90000
2
4
6
8
10
12
14
Hours ranked by volume
Mot
or v
ehic
les
in %
of A
WT
52
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Design diagrams for road infrastructure elements: High capacity roads July 2009
Figure 56: Ranked hourly flow variation for weekly profile 7 and annual profile 5:
0 1000 2000 3000 4000 5000 6000 7000 8000 90000
2
4
6
8
10
12
14
16
18
Hours ranked by volume
Mot
or v
ehic
les
in %
of A
WT
53
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Design diagrams for road infrastructure elements: High capacity roads July 2009
10 Appendix B: Design diagrams set 1
This section contains the design diagram produced for particular speed limit and number oflanes. Average weekday traffic is considered from 0 to 70,000 in order to have more clear vi-sualization. On each page, the design diagrams are arranged for 2 lane and 3 lane at a specifiedspeed limit.
54
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Design diagrams for road infrastructure elements: High capacity roads July 2009
10.1 Speed Limit 120 kmph
Figure 57: Design diagram for weekly profile 1, annual profile 1, speed limit 120 km/h, andnumber of lanes 2:
0 1 2 3 4 5 6 7
x 104
105
106
107
Average Weekday Traffic (AWT)
Annu
al C
ost (
CHF/
km)
1500 0−5%1500 5−15%1500 15−25%1750 0−5%1750 5−15%1750 15−25%2000 0−5%2000 5−15%2000 15−25%2250 0−5%2250 5−15%2250 15−25%2500 0−5%2500 5−15%2500 15−25%
Figure 58: Design diagram for weekly profile 1, annual profile 1, speed limit 120 km/h, andnumber of lanes 3:
0 1 2 3 4 5 6 7
x 104
105
106
107
Average Weekday Traffic (AWT)
Annu
al C
ost (
CHF/
km)
1500 0−5%1500 5−15%1500 15−25%1750 0−5%1750 5−15%1750 15−25%2000 0−5%2000 5−15%2000 15−25%2250 0−5%2250 5−15%2250 15−25%2500 0−5%2500 5−15%2500 15−25%
55
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Design diagrams for road infrastructure elements: High capacity roads July 2009
Figure 59: Design diagram for weekly profile 1, annual profile 2, speed limit 120 km/h, andnumber of lanes 2:
0 1 2 3 4 5 6 7
x 104
105
106
107
Average Weekday Traffic (AWT)
Annu
al C
ost (
CH
F/km
)
1500 0−5%1500 5−15%1500 15−25%1750 0−5%1750 5−15%1750 15−25%2000 0−5%2000 5−15%2000 15−25%2250 0−5%2250 5−15%2250 15−25%2500 0−5%2500 5−15%2500 15−25%
Figure 60: Design diagram for weekly profile 1, annual profile 2, speed limit 120 km/h, andnumber of lanes 3:
0 1 2 3 4 5 6 7
x 104
105
106
107
Average Weekday Traffic (AWT)
Annu
al C
ost (
CH
F/km
)
1500 0−5%1500 5−15%1500 15−25%1750 0−5%1750 5−15%1750 15−25%2000 0−5%2000 5−15%2000 15−25%2250 0−5%2250 5−15%2250 15−25%2500 0−5%2500 5−15%2500 15−25%
56
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Design diagrams for road infrastructure elements: High capacity roads July 2009
Figure 61: Design diagram for weekly profile 1, annual profile 3, speed limit 120 km/h, andnumber of lanes 2:
0 1 2 3 4 5 6 7
x 104
105
106
107
Average Weekday Traffic (AWT)
Annu
al C
ost (
CH
F/km
)
1500 0−5%1500 5−15%1500 15−25%1750 0−5%1750 5−15%1750 15−25%2000 0−5%2000 5−15%2000 15−25%2250 0−5%2250 5−15%2250 15−25%2500 0−5%2500 5−15%2500 15−25%
Figure 62: Design diagram for weekly profile 1, annual profile 3, speed limit 120 km/h, andnumber of lanes 3:
0 1 2 3 4 5 6 7
x 104
105
106
107
Average Weekday Traffic (AWT)
Annu
al C
ost (
CH
F/km
)
1500 0−5%1500 5−15%1500 15−25%1750 0−5%1750 5−15%1750 15−25%2000 0−5%2000 5−15%2000 15−25%2250 0−5%2250 5−15%2250 15−25%2500 0−5%2500 5−15%2500 15−25%
57
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Design diagrams for road infrastructure elements: High capacity roads July 2009
Figure 63: Design diagram for weekly profile 1, annual profile 4, speed limit 120 km/h, andnumber of lanes 2:
0 1 2 3 4 5 6 7
x 104
105
106
107
Average Weekday Traffic (AWT)
Annu
al C
ost (
CH
F/km
)
1500 0−5%1500 5−15%1500 15−25%1750 0−5%1750 5−15%1750 15−25%2000 0−5%2000 5−15%2000 15−25%2250 0−5%2250 5−15%2250 15−25%2500 0−5%2500 5−15%2500 15−25%
Figure 64: Design diagram for weekly profile 1, annual profile 4, speed limit 120 km/h, andnumber of lanes 3:
0 1 2 3 4 5 6 7
x 104
105
106
107
Average Weekday Traffic (AWT)
Annu
al C
ost (
CH
F/km
)
1500 0−5%1500 5−15%1500 15−25%1750 0−5%1750 5−15%1750 15−25%2000 0−5%2000 5−15%2000 15−25%2250 0−5%2250 5−15%2250 15−25%2500 0−5%2500 5−15%2500 15−25%
58
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Design diagrams for road infrastructure elements: High capacity roads July 2009
Figure 65: Design diagram for weekly profile 1, annual profile 5, speed limit 120 km/h, andnumber of lanes 2:
0 1 2 3 4 5 6 7
x 104
105
106
107
Average Weekday Traffic (AWT)
Annu
al C
ost (
CH
F/km
)
1500 0−5%1500 5−15%1500 15−25%1750 0−5%1750 5−15%1750 15−25%2000 0−5%2000 5−15%2000 15−25%2250 0−5%2250 5−15%2250 15−25%2500 0−5%2500 5−15%2500 15−25%
Figure 66: Design diagram for weekly profile 1, annual profile 5, speed limit 120 km/h, andnumber of lanes 3:
0 1 2 3 4 5 6 7
x 104
105
106
107
Average Weekday Traffic (AWT)
Annu
al C
ost (
CH
F/km
)
1500 0−5%1500 5−15%1500 15−25%1750 0−5%1750 5−15%1750 15−25%2000 0−5%2000 5−15%2000 15−25%2250 0−5%2250 5−15%2250 15−25%2500 0−5%2500 5−15%2500 15−25%
59
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Design diagrams for road infrastructure elements: High capacity roads July 2009
Figure 67: Design diagram for weekly profile 2, annual profile 1, speed limit 120 km/h, andnumber of lanes 2:
0 1 2 3 4 5 6 7
x 104
105
106
107
Average Weekday Traffic (AWT)
Annu
al C
ost (
CH
F/km
)
1500 0−5%1500 5−15%1500 15−25%1750 0−5%1750 5−15%1750 15−25%2000 0−5%2000 5−15%2000 15−25%2250 0−5%2250 5−15%2250 15−25%2500 0−5%2500 5−15%2500 15−25%
Figure 68: Design diagram for weekly profile 2, annual profile 1, speed limit 120 km/h, andnumber of lanes 3:
0 1 2 3 4 5 6 7
x 104
105
106
107
Average Weekday Traffic (AWT)
Annu
al C
ost (
CH
F/km
)
1500 0−5%1500 5−15%1500 15−25%1750 0−5%1750 5−15%1750 15−25%2000 0−5%2000 5−15%2000 15−25%2250 0−5%2250 5−15%2250 15−25%2500 0−5%2500 5−15%2500 15−25%
60
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Design diagrams for road infrastructure elements: High capacity roads July 2009
Figure 69: Design diagram for weekly profile 2, annual profile 2, speed limit 120 km/h, andnumber of lanes 2:
0 1 2 3 4 5 6 7
x 104
105
106
107
Average Weekday Traffic (AWT)
Annu
al C
ost (
CH
F/km
)
1500 0−5%1500 5−15%1500 15−25%1750 0−5%1750 5−15%1750 15−25%2000 0−5%2000 5−15%2000 15−25%2250 0−5%2250 5−15%2250 15−25%2500 0−5%2500 5−15%2500 15−25%
Figure 70: Design diagram for weekly profile 2, annual profile 2, speed limit 120 km/h, andnumber of lanes 3:
0 1 2 3 4 5 6 7
x 104
105
106
107
Average Weekday Traffic (AWT)
Annu
al C
ost (
CH
F/km
)
1500 0−5%1500 5−15%1500 15−25%1750 0−5%1750 5−15%1750 15−25%2000 0−5%2000 5−15%2000 15−25%2250 0−5%2250 5−15%2250 15−25%2500 0−5%2500 5−15%2500 15−25%
61
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Design diagrams for road infrastructure elements: High capacity roads July 2009
Figure 71: Design diagram for weekly profile 2, annual profile 3, speed limit 120 km/h, andnumber of lanes 2:
0 1 2 3 4 5 6 7
x 104
105
106
107
Average Weekday Traffic (AWT)
Annu
al C
ost (
CH
F/km
)
1500 0−5%1500 5−15%1500 15−25%1750 0−5%1750 5−15%1750 15−25%2000 0−5%2000 5−15%2000 15−25%2250 0−5%2250 5−15%2250 15−25%2500 0−5%2500 5−15%2500 15−25%
Figure 72: Design diagram for weekly profile 2, annual profile 3, speed limit 120 km/h, andnumber of lanes 3:
0 1 2 3 4 5 6 7
x 104
105
106
107
Average Weekday Traffic (AWT)
Annu
al C
ost (
CH
F/km
)
1500 0−5%1500 5−15%1500 15−25%1750 0−5%1750 5−15%1750 15−25%2000 0−5%2000 5−15%2000 15−25%2250 0−5%2250 5−15%2250 15−25%2500 0−5%2500 5−15%2500 15−25%
62
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Design diagrams for road infrastructure elements: High capacity roads July 2009
Figure 73: Design diagram for weekly profile 2, annual profile 4, speed limit 120 km/h, andnumber of lanes 2:
0 1 2 3 4 5 6 7
x 104
105
106
107
Average Weekday Traffic (AWT)
Annu
al C
ost (
CH
F/km
)
1500 0−5%1500 5−15%1500 15−25%1750 0−5%1750 5−15%1750 15−25%2000 0−5%2000 5−15%2000 15−25%2250 0−5%2250 5−15%2250 15−25%2500 0−5%2500 5−15%2500 15−25%
Figure 74: Design diagram for weekly profile 2, annual profile 4, speed limit 120 km/h, andnumber of lanes 3:
0 1 2 3 4 5 6 7
x 104
105
106
107
Average Weekday Traffic (AWT)
Annu
al C
ost (
CH
F/km
)
1500 0−5%1500 5−15%1500 15−25%1750 0−5%1750 5−15%1750 15−25%2000 0−5%2000 5−15%2000 15−25%2250 0−5%2250 5−15%2250 15−25%2500 0−5%2500 5−15%2500 15−25%
63
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Design diagrams for road infrastructure elements: High capacity roads July 2009
Figure 75: Design diagram for weekly profile 2, annual profile 5, speed limit 120 km/h, andnumber of lanes 2:
0 1 2 3 4 5 6 7
x 104
105
106
107
Average Weekday Traffic (AWT)
Annu
al C
ost (
CH
F/km
)
1500 0−5%1500 5−15%1500 15−25%1750 0−5%1750 5−15%1750 15−25%2000 0−5%2000 5−15%2000 15−25%2250 0−5%2250 5−15%2250 15−25%2500 0−5%2500 5−15%2500 15−25%
Figure 76: Design diagram for weekly profile 2, annual profile 5, speed limit 120 km/h, andnumber of lanes 3:
0 1 2 3 4 5 6 7
x 104
105
106
107
Average Weekday Traffic (AWT)
Annu
al C
ost (
CH
F/km
)
1500 0−5%1500 5−15%1500 15−25%1750 0−5%1750 5−15%1750 15−25%2000 0−5%2000 5−15%2000 15−25%2250 0−5%2250 5−15%2250 15−25%2500 0−5%2500 5−15%2500 15−25%
64
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Design diagrams for road infrastructure elements: High capacity roads July 2009
Figure 77: Design diagram for weekly profile 3, annual profile 1, speed limit 120 km/h, andnumber of lanes 2:
0 1 2 3 4 5 6 7
x 104
105
106
107
Average Weekday Traffic (AWT)
Annu
al C
ost (
CH
F/km
)
1500 0−5%1500 5−15%1500 15−25%1750 0−5%1750 5−15%1750 15−25%2000 0−5%2000 5−15%2000 15−25%2250 0−5%2250 5−15%2250 15−25%2500 0−5%2500 5−15%2500 15−25%
Figure 78: Design diagram for weekly profile 3, annual profile 1, speed limit 120 km/h, andnumber of lanes 3:
0 1 2 3 4 5 6 7
x 104
105
106
107
Average Weekday Traffic (AWT)
Annu
al C
ost (
CH
F/km
)
1500 0−5%1500 5−15%1500 15−25%1750 0−5%1750 5−15%1750 15−25%2000 0−5%2000 5−15%2000 15−25%2250 0−5%2250 5−15%2250 15−25%2500 0−5%2500 5−15%2500 15−25%
65
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Design diagrams for road infrastructure elements: High capacity roads July 2009
Figure 79: Design diagram for weekly profile 3, annual profile 2, speed limit 120 km/h, andnumber of lanes 2:
0 1 2 3 4 5 6 7
x 104
105
106
107
Average Weekday Traffic (AWT)
Annu
al C
ost (
CH
F/km
)
1500 0−5%1500 5−15%1500 15−25%1750 0−5%1750 5−15%1750 15−25%2000 0−5%2000 5−15%2000 15−25%2250 0−5%2250 5−15%2250 15−25%2500 0−5%2500 5−15%2500 15−25%
Figure 80: Design diagram for weekly profile 3, annual profile 2, speed limit 120 km/h, andnumber of lanes 3:
0 1 2 3 4 5 6 7
x 104
105
106
107
Average Weekday Traffic (AWT)
Annu
al C
ost (
CH
F/km
)
1500 0−5%1500 5−15%1500 15−25%1750 0−5%1750 5−15%1750 15−25%2000 0−5%2000 5−15%2000 15−25%2250 0−5%2250 5−15%2250 15−25%2500 0−5%2500 5−15%2500 15−25%
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Design diagrams for road infrastructure elements: High capacity roads July 2009
Figure 81: Design diagram for weekly profile 3, annual profile 3, speed limit 120 km/h, andnumber of lanes 2:
0 1 2 3 4 5 6 7
x 104
105
106
107
Average Weekday Traffic (AWT)
Annu
al C
ost (
CH
F/km
)
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Figure 82: Design diagram for weekly profile 3, annual profile 3, speed limit 120 km/h, andnumber of lanes 3:
0 1 2 3 4 5 6 7
x 104
105
106
107
Average Weekday Traffic (AWT)
Annu
al C
ost (
CH
F/km
)
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Design diagrams for road infrastructure elements: High capacity roads July 2009
Figure 83: Design diagram for weekly profile 3, annual profile 4, speed limit 120 km/h, andnumber of lanes 2:
0 1 2 3 4 5 6 7
x 104
105
106
107
Average Weekday Traffic (AWT)
Annu
al C
ost (
CH
F/km
)
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Figure 84: Design diagram for weekly profile 3, annual profile 4, speed limit 120 km/h, andnumber of lanes 3:
0 1 2 3 4 5 6 7
x 104
105
106
107
Average Weekday Traffic (AWT)
Annu
al C
ost (
CH
F/km
)
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Design diagrams for road infrastructure elements: High capacity roads July 2009
Figure 85: Design diagram for weekly profile 3, annual profile 5, speed limit 120 km/h, andnumber of lanes 2:
0 1 2 3 4 5 6 7
x 104
105
106
107
Average Weekday Traffic (AWT)
Annu
al C
ost (
CH
F/km
)
1500 0−5%1500 5−15%1500 15−25%1750 0−5%1750 5−15%1750 15−25%2000 0−5%2000 5−15%2000 15−25%2250 0−5%2250 5−15%2250 15−25%2500 0−5%2500 5−15%2500 15−25%
Figure 86: Design diagram for weekly profile 3, annual profile 5, speed limit 120 km/h, andnumber of lanes 3:
0 1 2 3 4 5 6 7
x 104
105
106
107
Average Weekday Traffic (AWT)
Annu
al C
ost (
CH
F/km
)
1500 0−5%1500 5−15%1500 15−25%1750 0−5%1750 5−15%1750 15−25%2000 0−5%2000 5−15%2000 15−25%2250 0−5%2250 5−15%2250 15−25%2500 0−5%2500 5−15%2500 15−25%
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Design diagrams for road infrastructure elements: High capacity roads July 2009
Figure 87: Design diagram for weekly profile 4, annual profile 1, speed limit 120 km/h, andnumber of lanes 2:
0 1 2 3 4 5 6 7
x 104
105
106
107
Average Weekday Traffic (AWT)
Annu
al C
ost (
CH
F/km
)
1500 0−5%1500 5−15%1500 15−25%1750 0−5%1750 5−15%1750 15−25%2000 0−5%2000 5−15%2000 15−25%2250 0−5%2250 5−15%2250 15−25%2500 0−5%2500 5−15%2500 15−25%
Figure 88: Design diagram for weekly profile 4, annual profile 1, speed limit 120 km/h, andnumber of lanes 3:
0 1 2 3 4 5 6 7
x 104
105
106
107
Average Weekday Traffic (AWT)
Annu
al C
ost (
CH
F/km
)
1500 0−5%1500 5−15%1500 15−25%1750 0−5%1750 5−15%1750 15−25%2000 0−5%2000 5−15%2000 15−25%2250 0−5%2250 5−15%2250 15−25%2500 0−5%2500 5−15%2500 15−25%
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Design diagrams for road infrastructure elements: High capacity roads July 2009
Figure 89: Design diagram for weekly profile 4, annual profile 2, speed limit 120 km/h, andnumber of lanes 2:
0 1 2 3 4 5 6 7
x 104
105
106
107
Average Weekday Traffic (AWT)
Annu
al C
ost (
CH
F/km
)
1500 0−5%1500 5−15%1500 15−25%1750 0−5%1750 5−15%1750 15−25%2000 0−5%2000 5−15%2000 15−25%2250 0−5%2250 5−15%2250 15−25%2500 0−5%2500 5−15%2500 15−25%
Figure 90: Design diagram for weekly profile 4, annual profile 2, speed limit 120 km/h, andnumber of lanes 3:
0 1 2 3 4 5 6 7
x 104
105
106
107
Average Weekday Traffic (AWT)
Annu
al C
ost (
CH
F/km
)
1500 0−5%1500 5−15%1500 15−25%1750 0−5%1750 5−15%1750 15−25%2000 0−5%2000 5−15%2000 15−25%2250 0−5%2250 5−15%2250 15−25%2500 0−5%2500 5−15%2500 15−25%
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Design diagrams for road infrastructure elements: High capacity roads July 2009
Figure 91: Design diagram for weekly profile 4, annual profile 3, speed limit 120 km/h, andnumber of lanes 2:
0 1 2 3 4 5 6 7
x 104
105
106
107
Average Weekday Traffic (AWT)
Annu
al C
ost (
CH
F/km
)
1500 0−5%1500 5−15%1500 15−25%1750 0−5%1750 5−15%1750 15−25%2000 0−5%2000 5−15%2000 15−25%2250 0−5%2250 5−15%2250 15−25%2500 0−5%2500 5−15%2500 15−25%
Figure 92: Design diagram for weekly profile 4, annual profile 3, speed limit 120 km/h, andnumber of lanes 3:
0 1 2 3 4 5 6 7
x 104
105
106
107
Average Weekday Traffic (AWT)
Annu
al C
ost (
CH
F/km
)
1500 0−5%1500 5−15%1500 15−25%1750 0−5%1750 5−15%1750 15−25%2000 0−5%2000 5−15%2000 15−25%2250 0−5%2250 5−15%2250 15−25%2500 0−5%2500 5−15%2500 15−25%
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Design diagrams for road infrastructure elements: High capacity roads July 2009
Figure 93: Design diagram for weekly profile 4, annual profile 4, speed limit 120 km/h, andnumber of lanes 2:
0 1 2 3 4 5 6 7
x 104
105
106
107
Average Weekday Traffic (AWT)
Annu
al C
ost (
CH
F/km
)
1500 0−5%1500 5−15%1500 15−25%1750 0−5%1750 5−15%1750 15−25%2000 0−5%2000 5−15%2000 15−25%2250 0−5%2250 5−15%2250 15−25%2500 0−5%2500 5−15%2500 15−25%
Figure 94: Design diagram for weekly profile 4, annual profile 4, speed limit 120 km/h, andnumber of lanes 3:
0 1 2 3 4 5 6 7
x 104
105
106
107
Average Weekday Traffic (AWT)
Annu
al C
ost (
CH
F/km
)
1500 0−5%1500 5−15%1500 15−25%1750 0−5%1750 5−15%1750 15−25%2000 0−5%2000 5−15%2000 15−25%2250 0−5%2250 5−15%2250 15−25%2500 0−5%2500 5−15%2500 15−25%
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Design diagrams for road infrastructure elements: High capacity roads July 2009
Figure 95: Design diagram for weekly profile 4, annual profile 5, speed limit 120 km/h, andnumber of lanes 2:
0 1 2 3 4 5 6 7
x 104
105
106
107
Average Weekday Traffic (AWT)
Annu
al C
ost (
CH
F/km
)
1500 0−5%1500 5−15%1500 15−25%1750 0−5%1750 5−15%1750 15−25%2000 0−5%2000 5−15%2000 15−25%2250 0−5%2250 5−15%2250 15−25%2500 0−5%2500 5−15%2500 15−25%
Figure 96: Design diagram for weekly profile 4, annual profile 5, speed limit 120 km/h, andnumber of lanes 3:
0 1 2 3 4 5 6 7
x 104
105
106
107
Average Weekday Traffic (AWT)
Annu
al C
ost (
CH
F/km
)
1500 0−5%1500 5−15%1500 15−25%1750 0−5%1750 5−15%1750 15−25%2000 0−5%2000 5−15%2000 15−25%2250 0−5%2250 5−15%2250 15−25%2500 0−5%2500 5−15%2500 15−25%
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Design diagrams for road infrastructure elements: High capacity roads July 2009
Figure 97: Design diagram for weekly profile 5, annual profile 1, speed limit 120 km/h, andnumber of lanes 2:
0 1 2 3 4 5 6 7
x 104
105
106
107
Average Weekday Traffic (AWT)
Annu
al C
ost (
CH
F/km
)
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Figure 98: Design diagram for weekly profile 5, annual profile 1, speed limit 120 km/h, andnumber of lanes 3:
0 1 2 3 4 5 6 7
x 104
105
106
107
Average Weekday Traffic (AWT)
Annu
al C
ost (
CH
F/km
)
1500 0−5%1500 5−15%1500 15−25%1750 0−5%1750 5−15%1750 15−25%2000 0−5%2000 5−15%2000 15−25%2250 0−5%2250 5−15%2250 15−25%2500 0−5%2500 5−15%2500 15−25%
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Design diagrams for road infrastructure elements: High capacity roads July 2009
Figure 99: Design diagram for weekly profile 5, annual profile 2, speed limit 120 km/h, andnumber of lanes 2:
0 1 2 3 4 5 6 7
x 104
105
106
107
Average Weekday Traffic (AWT)
Annu
al C
ost (
CH
F/km
)
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Figure 100: Design diagram for weekly profile 5, annual profile 2, speed limit 120 km/h, andnumber of lanes 3:
0 1 2 3 4 5 6 7
x 104
105
106
107
Average Weekday Traffic (AWT)
Annu
al C
ost (
CH
F/km
)
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Design diagrams for road infrastructure elements: High capacity roads July 2009
Figure 101: Design diagram for weekly profile 5, annual profile 3, speed limit 120 km/h, andnumber of lanes 2:
0 1 2 3 4 5 6 7
x 104
105
106
107
Average Weekday Traffic (AWT)
Annu
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ost (
CH
F/km
)
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Figure 102: Design diagram for weekly profile 5, annual profile 3, speed limit 120 km/h, andnumber of lanes 3:
0 1 2 3 4 5 6 7
x 104
105
106
107
Average Weekday Traffic (AWT)
Annu
al C
ost (
CH
F/km
)
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Design diagrams for road infrastructure elements: High capacity roads July 2009
Figure 103: Design diagram for weekly profile 5, annual profile 4, speed limit 120 km/h, andnumber of lanes 2:
0 1 2 3 4 5 6 7
x 104
105
106
107
Average Weekday Traffic (AWT)
Annu
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ost (
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F/km
)
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Figure 104: Design diagram for weekly profile 5, annual profile 4, speed limit 120 km/h, andnumber of lanes 3:
0 1 2 3 4 5 6 7
x 104
105
106
107
Average Weekday Traffic (AWT)
Annu
al C
ost (
CH
F/km
)
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Design diagrams for road infrastructure elements: High capacity roads July 2009
Figure 105: Design diagram for weekly profile 5, annual profile 5, speed limit 120 km/h, andnumber of lanes 2:
0 1 2 3 4 5 6 7
x 104
105
106
107
Average Weekday Traffic (AWT)
Annu
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ost (
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F/km
)
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Figure 106: Design diagram for weekly profile 5, annual profile 5, speed limit 120 km/h, andnumber of lanes 3:
0 1 2 3 4 5 6 7
x 104
105
106
107
Average Weekday Traffic (AWT)
Annu
al C
ost (
CH
F/km
)
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Design diagrams for road infrastructure elements: High capacity roads July 2009
Figure 107: Design diagram for weekly profile 6, annual profile 1, speed limit 120 km/h, andnumber of lanes 2:
0 1 2 3 4 5 6 7
x 104
105
106
107
Average Weekday Traffic (AWT)
Annu
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F/km
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Figure 108: Design diagram for weekly profile 6, annual profile 1, speed limit 120 km/h, andnumber of lanes 3:
0 1 2 3 4 5 6 7
x 104
105
106
107
Average Weekday Traffic (AWT)
Annu
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ost (
CH
F/km
)
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Design diagrams for road infrastructure elements: High capacity roads July 2009
Figure 109: Design diagram for weekly profile 6, annual profile 2, speed limit 120 km/h, andnumber of lanes 2:
0 1 2 3 4 5 6 7
x 104
105
106
107
Average Weekday Traffic (AWT)
Annu
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ost (
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F/km
)
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Figure 110: Design diagram for weekly profile 6, annual profile 2, speed limit 120 km/h, andnumber of lanes 3:
0 1 2 3 4 5 6 7
x 104
105
106
107
Average Weekday Traffic (AWT)
Annu
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ost (
CH
F/km
)
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Design diagrams for road infrastructure elements: High capacity roads July 2009
Figure 111: Design diagram for weekly profile 6, annual profile 3, speed limit 120 km/h, andnumber of lanes 2:
0 1 2 3 4 5 6 7
x 104
105
106
107
Average Weekday Traffic (AWT)
Annu
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ost (
CH
F/km
)
1500 0−5%1500 5−15%1500 15−25%1750 0−5%1750 5−15%1750 15−25%2000 0−5%2000 5−15%2000 15−25%2250 0−5%2250 5−15%2250 15−25%2500 0−5%2500 5−15%2500 15−25%
Figure 112: Design diagram for weekly profile 6, annual profile 3, speed limit 120 km/h, andnumber of lanes 3:
0 1 2 3 4 5 6 7
x 104
105
106
107
Average Weekday Traffic (AWT)
Annu
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ost (
CH
F/km
)
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Design diagrams for road infrastructure elements: High capacity roads July 2009
Figure 113: Design diagram for weekly profile 6, annual profile 4, speed limit 120 km/h, andnumber of lanes 2:
0 1 2 3 4 5 6 7
x 104
105
106
107
Average Weekday Traffic (AWT)
Annu
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ost (
CH
F/km
)
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Figure 114: Design diagram for weekly profile 6, annual profile 4, speed limit 120 km/h, andnumber of lanes 3:
0 1 2 3 4 5 6 7
x 104
105
106
107
Average Weekday Traffic (AWT)
Annu
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ost (
CH
F/km
)
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Design diagrams for road infrastructure elements: High capacity roads July 2009
Figure 115: Design diagram for weekly profile 6, annual profile 5, speed limit 120 km/h, andnumber of lanes 2:
0 1 2 3 4 5 6 7
x 104
105
106
107
Average Weekday Traffic (AWT)
Annu
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CH
F/km
)
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Figure 116: Design diagram for weekly profile 6, annual profile 5, speed limit 120 km/h, andnumber of lanes 3:
0 1 2 3 4 5 6 7
x 104
105
106
107
Average Weekday Traffic (AWT)
Annu
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CH
F/km
)
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Design diagrams for road infrastructure elements: High capacity roads July 2009
Figure 117: Design diagram for weekly profile 7, annual profile 1, speed limit 120 km/h, andnumber of lanes 2:
0 1 2 3 4 5 6 7
x 104
105
106
107
Average Weekday Traffic (AWT)
Annu
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F/km
)
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Figure 118: Design diagram for weekly profile 7, annual profile 1, speed limit 120 km/h, andnumber of lanes 3:
0 1 2 3 4 5 6 7
x 104
105
106
107
Average Weekday Traffic (AWT)
Annu
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F/km
)
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Design diagrams for road infrastructure elements: High capacity roads July 2009
Figure 119: Design diagram for weekly profile 7, annual profile 2, speed limit 120 km/h, andnumber of lanes 2:
0 1 2 3 4 5 6 7
x 104
105
106
107
Average Weekday Traffic (AWT)
Annu
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Figure 120: Design diagram for weekly profile 7, annual profile 2, speed limit 120 km/h, andnumber of lanes 3:
0 1 2 3 4 5 6 7
x 104
105
106
107
Average Weekday Traffic (AWT)
Annu
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F/km
)
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Design diagrams for road infrastructure elements: High capacity roads July 2009
Figure 121: Design diagram for weekly profile 7, annual profile 3, speed limit 120 km/h, andnumber of lanes 2:
0 1 2 3 4 5 6 7
x 104
105
106
107
Average Weekday Traffic (AWT)
Annu
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Figure 122: Design diagram for weekly profile 7, annual profile 3, speed limit 120 km/h, andnumber of lanes 3:
0 1 2 3 4 5 6 7
x 104
105
106
107
Average Weekday Traffic (AWT)
Annu
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F/km
)
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Design diagrams for road infrastructure elements: High capacity roads July 2009
Figure 123: Design diagram for weekly profile 7, annual profile 4, speed limit 120 km/h, andnumber of lanes 2:
0 1 2 3 4 5 6 7
x 104
105
106
107
Average Weekday Traffic (AWT)
Annu
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Figure 124: Design diagram for weekly profile 7, annual profile 4, speed limit 120 km/h, andnumber of lanes 3:
0 1 2 3 4 5 6 7
x 104
105
106
107
Average Weekday Traffic (AWT)
Annu
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CH
F/km
)
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Design diagrams for road infrastructure elements: High capacity roads July 2009
Figure 125: Design diagram for weekly profile 7, annual profile 5, speed limit 120 km/h, andnumber of lanes 2:
0 1 2 3 4 5 6 7
x 104
105
106
107
Average Weekday Traffic (AWT)
Annu
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Figure 126: Design diagram for weekly profile 7, annual profile 5, speed limit 120 km/h, andnumber of lanes 3:
0 1 2 3 4 5 6 7
x 104
105
106
107
Average Weekday Traffic (AWT)
Annu
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CH
F/km
)
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Design diagrams for road infrastructure elements: High capacity roads July 2009
10.2 Speed Limit 100 kmph
Figure 127: Design diagram for weekly profile 1, annual profile 1, speed limit 100 km/h, andnumber of lanes 2:
0 1 2 3 4 5 6 7
x 104
105
106
107
Average Weekday Traffic (AWT)
Annu
al C
ost (
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km)
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Figure 128: Design diagram for weekly profile 1, annual profile 1, speed limit 100 km/h, andnumber of lanes 3:
0 1 2 3 4 5 6 7
x 104
105
106
107
Average Weekday Traffic (AWT)
Annu
al C
ost (
CHF/
km)
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Design diagrams for road infrastructure elements: High capacity roads July 2009
Figure 129: Design diagram for weekly profile 1, annual profile 2, speed limit 100 km/h, andnumber of lanes 2:
0 1 2 3 4 5 6 7
x 104
105
106
107
Average Weekday Traffic (AWT)
Annu
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Figure 130: Design diagram for weekly profile 1, annual profile 2, speed limit 100 km/h, andnumber of lanes 3:
0 1 2 3 4 5 6 7
x 104
105
106
107
Average Weekday Traffic (AWT)
Annu
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ost (
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F/km
)
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Design diagrams for road infrastructure elements: High capacity roads July 2009
Figure 131: Design diagram for weekly profile 1, annual profile 3, speed limit 100 km/h, andnumber of lanes 2:
0 1 2 3 4 5 6 7
x 104
105
106
107
Average Weekday Traffic (AWT)
Annu
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Figure 132: Design diagram for weekly profile 1, annual profile 3, speed limit 100 km/h, andnumber of lanes 3:
0 1 2 3 4 5 6 7
x 104
105
106
107
Average Weekday Traffic (AWT)
Annu
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F/km
)
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Design diagrams for road infrastructure elements: High capacity roads July 2009
Figure 133: Design diagram for weekly profile 1, annual profile 4, speed limit 100 km/h, andnumber of lanes 2:
0 1 2 3 4 5 6 7
x 104
105
106
107
Average Weekday Traffic (AWT)
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Figure 134: Design diagram for weekly profile 1, annual profile 4, speed limit 100 km/h, andnumber of lanes 3:
0 1 2 3 4 5 6 7
x 104
105
106
107
Average Weekday Traffic (AWT)
Annu
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ost (
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F/km
)
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Design diagrams for road infrastructure elements: High capacity roads July 2009
Figure 135: Design diagram for weekly profile 1, annual profile 5, speed limit 100 km/h, andnumber of lanes 2:
0 1 2 3 4 5 6 7
x 104
105
106
107
Average Weekday Traffic (AWT)
Annu
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Figure 136: Design diagram for weekly profile 1, annual profile 5, speed limit 100 km/h, andnumber of lanes 3:
0 1 2 3 4 5 6 7
x 104
105
106
107
Average Weekday Traffic (AWT)
Annu
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F/km
)
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Design diagrams for road infrastructure elements: High capacity roads July 2009
Figure 137: Design diagram for weekly profile 2, annual profile 1, speed limit 100 km/h, andnumber of lanes 2:
0 1 2 3 4 5 6 7
x 104
105
106
107
Average Weekday Traffic (AWT)
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Figure 138: Design diagram for weekly profile 2, annual profile 1, speed limit 100 km/h, andnumber of lanes 3:
0 1 2 3 4 5 6 7
x 104
105
106
107
Average Weekday Traffic (AWT)
Annu
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F/km
)
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Design diagrams for road infrastructure elements: High capacity roads July 2009
Figure 139: Design diagram for weekly profile 2, annual profile 2, speed limit 100 km/h, andnumber of lanes 2:
0 1 2 3 4 5 6 7
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105
106
107
Average Weekday Traffic (AWT)
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Figure 140: Design diagram for weekly profile 2, annual profile 2, speed limit 100 km/h, andnumber of lanes 3:
0 1 2 3 4 5 6 7
x 104
105
106
107
Average Weekday Traffic (AWT)
Annu
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F/km
)
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Design diagrams for road infrastructure elements: High capacity roads July 2009
Figure 141: Design diagram for weekly profile 2, annual profile 3, speed limit 100 km/h, andnumber of lanes 2:
0 1 2 3 4 5 6 7
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105
106
107
Average Weekday Traffic (AWT)
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Figure 142: Design diagram for weekly profile 2, annual profile 3, speed limit 100 km/h, andnumber of lanes 3:
0 1 2 3 4 5 6 7
x 104
105
106
107
Average Weekday Traffic (AWT)
Annu
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Design diagrams for road infrastructure elements: High capacity roads July 2009
Figure 143: Design diagram for weekly profile 2, annual profile 4, speed limit 100 km/h, andnumber of lanes 2:
0 1 2 3 4 5 6 7
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105
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107
Average Weekday Traffic (AWT)
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Figure 144: Design diagram for weekly profile 2, annual profile 4, speed limit 100 km/h, andnumber of lanes 3:
0 1 2 3 4 5 6 7
x 104
105
106
107
Average Weekday Traffic (AWT)
Annu
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F/km
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Design diagrams for road infrastructure elements: High capacity roads July 2009
Figure 145: Design diagram for weekly profile 2, annual profile 5, speed limit 100 km/h, andnumber of lanes 2:
0 1 2 3 4 5 6 7
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105
106
107
Average Weekday Traffic (AWT)
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Figure 146: Design diagram for weekly profile 2, annual profile 5, speed limit 100 km/h, andnumber of lanes 3:
0 1 2 3 4 5 6 7
x 104
105
106
107
Average Weekday Traffic (AWT)
Annu
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F/km
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Design diagrams for road infrastructure elements: High capacity roads July 2009
Figure 147: Design diagram for weekly profile 3, annual profile 1, speed limit 100 km/h, andnumber of lanes 2:
0 1 2 3 4 5 6 7
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105
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107
Average Weekday Traffic (AWT)
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Figure 148: Design diagram for weekly profile 3, annual profile 1, speed limit 100 km/h, andnumber of lanes 3:
0 1 2 3 4 5 6 7
x 104
105
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107
Average Weekday Traffic (AWT)
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Design diagrams for road infrastructure elements: High capacity roads July 2009
Figure 149: Design diagram for weekly profile 3, annual profile 2, speed limit 100 km/h, andnumber of lanes 2:
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107
Average Weekday Traffic (AWT)
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Figure 150: Design diagram for weekly profile 3, annual profile 2, speed limit 100 km/h, andnumber of lanes 3:
0 1 2 3 4 5 6 7
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107
Average Weekday Traffic (AWT)
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Design diagrams for road infrastructure elements: High capacity roads July 2009
Figure 151: Design diagram for weekly profile 3, annual profile 3, speed limit 100 km/h, andnumber of lanes 2:
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Average Weekday Traffic (AWT)
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Figure 152: Design diagram for weekly profile 3, annual profile 3, speed limit 100 km/h, andnumber of lanes 3:
0 1 2 3 4 5 6 7
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105
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107
Average Weekday Traffic (AWT)
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Design diagrams for road infrastructure elements: High capacity roads July 2009
Figure 153: Design diagram for weekly profile 3, annual profile 4, speed limit 100 km/h, andnumber of lanes 2:
0 1 2 3 4 5 6 7
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105
106
107
Average Weekday Traffic (AWT)
Annu
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Figure 154: Design diagram for weekly profile 3, annual profile 4, speed limit 100 km/h, andnumber of lanes 3:
0 1 2 3 4 5 6 7
x 104
105
106
107
Average Weekday Traffic (AWT)
Annu
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Design diagrams for road infrastructure elements: High capacity roads July 2009
Figure 155: Design diagram for weekly profile 3, annual profile 5, speed limit 100 km/h, andnumber of lanes 2:
0 1 2 3 4 5 6 7
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105
106
107
Average Weekday Traffic (AWT)
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Figure 156: Design diagram for weekly profile 3, annual profile 5, speed limit 100 km/h, andnumber of lanes 3:
0 1 2 3 4 5 6 7
x 104
105
106
107
Average Weekday Traffic (AWT)
Annu
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Design diagrams for road infrastructure elements: High capacity roads July 2009
Figure 157: Design diagram for weekly profile 4, annual profile 1, speed limit 100 km/h, andnumber of lanes 2:
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105
106
107
Average Weekday Traffic (AWT)
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Figure 158: Design diagram for weekly profile 4, annual profile 1, speed limit 100 km/h, andnumber of lanes 3:
0 1 2 3 4 5 6 7
x 104
105
106
107
Average Weekday Traffic (AWT)
Annu
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Design diagrams for road infrastructure elements: High capacity roads July 2009
Figure 159: Design diagram for weekly profile 4, annual profile 2, speed limit 100 km/h, andnumber of lanes 2:
0 1 2 3 4 5 6 7
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105
106
107
Average Weekday Traffic (AWT)
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Figure 160: Design diagram for weekly profile 4, annual profile 2, speed limit 100 km/h, andnumber of lanes 3:
0 1 2 3 4 5 6 7
x 104
105
106
107
Average Weekday Traffic (AWT)
Annu
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Design diagrams for road infrastructure elements: High capacity roads July 2009
Figure 161: Design diagram for weekly profile 4, annual profile 3, speed limit 100 km/h, andnumber of lanes 2:
0 1 2 3 4 5 6 7
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105
106
107
Average Weekday Traffic (AWT)
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Figure 162: Design diagram for weekly profile 4, annual profile 3, speed limit 100 km/h, andnumber of lanes 3:
0 1 2 3 4 5 6 7
x 104
105
106
107
Average Weekday Traffic (AWT)
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Design diagrams for road infrastructure elements: High capacity roads July 2009
Figure 163: Design diagram for weekly profile 4, annual profile 4, speed limit 100 km/h, andnumber of lanes 2:
0 1 2 3 4 5 6 7
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105
106
107
Average Weekday Traffic (AWT)
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Figure 164: Design diagram for weekly profile 4, annual profile 4, speed limit 100 km/h, andnumber of lanes 3:
0 1 2 3 4 5 6 7
x 104
105
106
107
Average Weekday Traffic (AWT)
Annu
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Design diagrams for road infrastructure elements: High capacity roads July 2009
Figure 165: Design diagram for weekly profile 4, annual profile 5, speed limit 100 km/h, andnumber of lanes 2:
0 1 2 3 4 5 6 7
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105
106
107
Average Weekday Traffic (AWT)
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Figure 166: Design diagram for weekly profile 4, annual profile 5, speed limit 100 km/h, andnumber of lanes 3:
0 1 2 3 4 5 6 7
x 104
105
106
107
Average Weekday Traffic (AWT)
Annu
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F/km
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Design diagrams for road infrastructure elements: High capacity roads July 2009
Figure 167: Design diagram for weekly profile 5, annual profile 1, speed limit 100 km/h, andnumber of lanes 2:
0 1 2 3 4 5 6 7
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105
106
107
Average Weekday Traffic (AWT)
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Figure 168: Design diagram for weekly profile 5, annual profile 1, speed limit 100 km/h, andnumber of lanes 3:
0 1 2 3 4 5 6 7
x 104
105
106
107
Average Weekday Traffic (AWT)
Annu
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Design diagrams for road infrastructure elements: High capacity roads July 2009
Figure 169: Design diagram for weekly profile 5, annual profile 2, speed limit 100 km/h, andnumber of lanes 2:
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105
106
107
Average Weekday Traffic (AWT)
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Figure 170: Design diagram for weekly profile 5, annual profile 2, speed limit 100 km/h, andnumber of lanes 3:
0 1 2 3 4 5 6 7
x 104
105
106
107
Average Weekday Traffic (AWT)
Annu
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F/km
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Design diagrams for road infrastructure elements: High capacity roads July 2009
Figure 171: Design diagram for weekly profile 5, annual profile 3, speed limit 100 km/h, andnumber of lanes 2:
0 1 2 3 4 5 6 7
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105
106
107
Average Weekday Traffic (AWT)
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Figure 172: Design diagram for weekly profile 5, annual profile 3, speed limit 100 km/h, andnumber of lanes 3:
0 1 2 3 4 5 6 7
x 104
105
106
107
Average Weekday Traffic (AWT)
Annu
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F/km
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Design diagrams for road infrastructure elements: High capacity roads July 2009
Figure 173: Design diagram for weekly profile 5, annual profile 4, speed limit 100 km/h, andnumber of lanes 2:
0 1 2 3 4 5 6 7
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105
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107
Average Weekday Traffic (AWT)
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Figure 174: Design diagram for weekly profile 5, annual profile 4, speed limit 100 km/h, andnumber of lanes 3:
0 1 2 3 4 5 6 7
x 104
105
106
107
Average Weekday Traffic (AWT)
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Design diagrams for road infrastructure elements: High capacity roads July 2009
Figure 175: Design diagram for weekly profile 5, annual profile 5, speed limit 100 km/h, andnumber of lanes 2:
0 1 2 3 4 5 6 7
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105
106
107
Average Weekday Traffic (AWT)
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Figure 176: Design diagram for weekly profile 5, annual profile 5, speed limit 100 km/h, andnumber of lanes 3:
0 1 2 3 4 5 6 7
x 104
105
106
107
Average Weekday Traffic (AWT)
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Design diagrams for road infrastructure elements: High capacity roads July 2009
Figure 177: Design diagram for weekly profile 6, annual profile 1, speed limit 100 km/h, andnumber of lanes 2:
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105
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107
Average Weekday Traffic (AWT)
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Figure 178: Design diagram for weekly profile 6, annual profile 1, speed limit 100 km/h, andnumber of lanes 3:
0 1 2 3 4 5 6 7
x 104
105
106
107
Average Weekday Traffic (AWT)
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Design diagrams for road infrastructure elements: High capacity roads July 2009
Figure 179: Design diagram for weekly profile 6, annual profile 2, speed limit 100 km/h, andnumber of lanes 2:
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105
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Figure 180: Design diagram for weekly profile 6, annual profile 2, speed limit 100 km/h, andnumber of lanes 3:
0 1 2 3 4 5 6 7
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105
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107
Average Weekday Traffic (AWT)
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Design diagrams for road infrastructure elements: High capacity roads July 2009
Figure 181: Design diagram for weekly profile 6, annual profile 3, speed limit 100 km/h, andnumber of lanes 2:
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105
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Figure 182: Design diagram for weekly profile 6, annual profile 3, speed limit 100 km/h, andnumber of lanes 3:
0 1 2 3 4 5 6 7
x 104
105
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107
Average Weekday Traffic (AWT)
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Design diagrams for road infrastructure elements: High capacity roads July 2009
Figure 183: Design diagram for weekly profile 6, annual profile 4, speed limit 100 km/h, andnumber of lanes 2:
0 1 2 3 4 5 6 7
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Figure 184: Design diagram for weekly profile 6, annual profile 4, speed limit 100 km/h, andnumber of lanes 3:
0 1 2 3 4 5 6 7
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105
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Design diagrams for road infrastructure elements: High capacity roads July 2009
Figure 185: Design diagram for weekly profile 6, annual profile 5, speed limit 100 km/h, andnumber of lanes 2:
0 1 2 3 4 5 6 7
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Figure 186: Design diagram for weekly profile 6, annual profile 5, speed limit 100 km/h, andnumber of lanes 3:
0 1 2 3 4 5 6 7
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Design diagrams for road infrastructure elements: High capacity roads July 2009
Figure 187: Design diagram for weekly profile 7, annual profile 1, speed limit 100 km/h, andnumber of lanes 2:
0 1 2 3 4 5 6 7
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105
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Figure 188: Design diagram for weekly profile 7, annual profile 1, speed limit 100 km/h, andnumber of lanes 3:
0 1 2 3 4 5 6 7
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105
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Design diagrams for road infrastructure elements: High capacity roads July 2009
Figure 189: Design diagram for weekly profile 7, annual profile 2, speed limit 100 km/h, andnumber of lanes 2:
0 1 2 3 4 5 6 7
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105
106
107
Average Weekday Traffic (AWT)
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Figure 190: Design diagram for weekly profile 7, annual profile 2, speed limit 100 km/h, andnumber of lanes 3:
0 1 2 3 4 5 6 7
x 104
105
106
107
Average Weekday Traffic (AWT)
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1500 0−5%1500 5−15%1500 15−25%1750 0−5%1750 5−15%1750 15−25%2000 0−5%2000 5−15%2000 15−25%2250 0−5%2250 5−15%2250 15−25%2500 0−5%2500 5−15%2500 15−25%
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Design diagrams for road infrastructure elements: High capacity roads July 2009
Figure 191: Design diagram for weekly profile 7, annual profile 3, speed limit 100 km/h, andnumber of lanes 2:
0 1 2 3 4 5 6 7
x 104
105
106
107
Average Weekday Traffic (AWT)
Annu
al C
ost (
CH
F/km
)
1500 0−5%1500 5−15%1500 15−25%1750 0−5%1750 5−15%1750 15−25%2000 0−5%2000 5−15%2000 15−25%2250 0−5%2250 5−15%2250 15−25%2500 0−5%2500 5−15%2500 15−25%
Figure 192: Design diagram for weekly profile 7, annual profile 3, speed limit 100 km/h, andnumber of lanes 3:
0 1 2 3 4 5 6 7
x 104
105
106
107
Average Weekday Traffic (AWT)
Annu
al C
ost (
CH
F/km
)
1500 0−5%1500 5−15%1500 15−25%1750 0−5%1750 5−15%1750 15−25%2000 0−5%2000 5−15%2000 15−25%2250 0−5%2250 5−15%2250 15−25%2500 0−5%2500 5−15%2500 15−25%
122
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Design diagrams for road infrastructure elements: High capacity roads July 2009
Figure 193: Design diagram for weekly profile 7, annual profile 4, speed limit 100 km/h, andnumber of lanes 2:
0 1 2 3 4 5 6 7
x 104
105
106
107
Average Weekday Traffic (AWT)
Annu
al C
ost (
CH
F/km
)
1500 0−5%1500 5−15%1500 15−25%1750 0−5%1750 5−15%1750 15−25%2000 0−5%2000 5−15%2000 15−25%2250 0−5%2250 5−15%2250 15−25%2500 0−5%2500 5−15%2500 15−25%
Figure 194: Design diagram for weekly profile 7, annual profile 4, speed limit 100 km/h, andnumber of lanes 3:
0 1 2 3 4 5 6 7
x 104
105
106
107
Average Weekday Traffic (AWT)
Annu
al C
ost (
CH
F/km
)
1500 0−5%1500 5−15%1500 15−25%1750 0−5%1750 5−15%1750 15−25%2000 0−5%2000 5−15%2000 15−25%2250 0−5%2250 5−15%2250 15−25%2500 0−5%2500 5−15%2500 15−25%
123
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Design diagrams for road infrastructure elements: High capacity roads July 2009
Figure 195: Design diagram for weekly profile 7, annual profile 5, speed limit 100 km/h, andnumber of lanes 2:
0 1 2 3 4 5 6 7
x 104
105
106
107
Average Weekday Traffic (AWT)
Annu
al C
ost (
CH
F/km
)
1500 0−5%1500 5−15%1500 15−25%1750 0−5%1750 5−15%1750 15−25%2000 0−5%2000 5−15%2000 15−25%2250 0−5%2250 5−15%2250 15−25%2500 0−5%2500 5−15%2500 15−25%
Figure 196: Design diagram for weekly profile 7, annual profile 5, speed limit 100 km/h, andnumber of lanes 3:
0 1 2 3 4 5 6 7
x 104
105
106
107
Average Weekday Traffic (AWT)
Annu
al C
ost (
CH
F/km
)
1500 0−5%1500 5−15%1500 15−25%1750 0−5%1750 5−15%1750 15−25%2000 0−5%2000 5−15%2000 15−25%2250 0−5%2250 5−15%2250 15−25%2500 0−5%2500 5−15%2500 15−25%
124
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Design diagrams for road infrastructure elements: High capacity roads July 2009
11 Appendix C: Design diagrams set 2
This section contains the design diagram produced for specified share of heavy goods vehiclesand cross section capacity per lane of the considered motorway. The design diagrams arearranged in 15 subsections. Each subsection represents design diagrams for specific value ofshare of heavy goods vehicles and cross section capacity per lane.
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Design diagrams for road infrastructure elements: High capacity roads July 2009
11.1 Cross section capacity: 1500 [veh/lane/h] and share of heavy goodsvehicles: 0 – 5%
Figure 197: Design diagram for weekly profile 1, annual profile 1, share of heavy goods vehi-cles 0%, cross section capacity 1500 [veh/lane/h]:
0 1 2 3 4 5 6 7
x 104
105
106
107
Average Weekday Traffic (AWT)
Annu
al C
ost (
CHF/
km)
2Lane 100kmph3Lane 100kmph2Lane 120kmph3Lane 120kmph
Figure 198: Design diagram for weekly profile 1, annual profile 2, share of heavy goods vehi-cles 0%, cross section capacity 1500 [veh/lane/h]:
0 1 2 3 4 5 6 7
x 104
105
106
107
Average Weekday Traffic (AWT)
Annu
al C
ost (
CHF/
km)
2Lane 100kmph3Lane 100kmph2Lane 120kmph3Lane 120kmph
126
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Design diagrams for road infrastructure elements: High capacity roads July 2009
Figure 199: Design diagram for weekly profile 1, annual profile 3, share of heavy goods vehi-cles 0%, cross section capacity 1500 [veh/lane/h]:
0 1 2 3 4 5 6 7
x 104
105
106
107
Average Weekday Traffic (AWT)
Annu
al C
ost (
CHF/
km)
2Lane 100kmph3Lane 100kmph2Lane 120kmph3Lane 120kmph
Figure 200: Design diagram for weekly profile 1, annual profile 4, share of heavy goods vehi-cles 0%, cross section capacity 1500 [veh/lane/h]:
0 1 2 3 4 5 6 7
x 104
105
106
107
Average Weekday Traffic (AWT)
Annu
al C
ost (
CHF/
km)
2Lane 100kmph3Lane 100kmph2Lane 120kmph3Lane 120kmph
127
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Design diagrams for road infrastructure elements: High capacity roads July 2009
Figure 201: Design diagram for weekly profile 1, annual profile 5, share of heavy goods vehi-cles 0%, cross section capacity 1500 [veh/lane/h]:
0 1 2 3 4 5 6 7
x 104
105
106
107
Average Weekday Traffic (AWT)
Annu
al C
ost (
CHF/
km)
2Lane 100kmph3Lane 100kmph2Lane 120kmph3Lane 120kmph
Figure 202: Design diagram for weekly profile 2, annual profile 1, share of heavy goods vehi-cles 0%, cross section capacity 1500 [veh/lane/h]:
0 1 2 3 4 5 6 7
x 104
105
106
107
Average Weekday Traffic (AWT)
Annu
al C
ost (
CHF/
km)
2Lane 100kmph3Lane 100kmph2Lane 120kmph3Lane 120kmph
128
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Design diagrams for road infrastructure elements: High capacity roads July 2009
Figure 203: Design diagram for weekly profile 2, annual profile 2, share of heavy goods vehi-cles 0%, cross section capacity 1500 [veh/lane/h]:
0 1 2 3 4 5 6 7
x 104
105
106
107
Average Weekday Traffic (AWT)
Annu
al C
ost (
CHF/
km)
2Lane 100kmph3Lane 100kmph2Lane 120kmph3Lane 120kmph
Figure 204: Design diagram for weekly profile 2, annual profile 3, share of heavy goods vehi-cles 0%, cross section capacity 1500 [veh/lane/h]:
0 1 2 3 4 5 6 7
x 104
105
106
107
Average Weekday Traffic (AWT)
Annu
al C
ost (
CHF/
km)
2Lane 100kmph3Lane 100kmph2Lane 120kmph3Lane 120kmph
129
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Design diagrams for road infrastructure elements: High capacity roads July 2009
Figure 205: Design diagram for weekly profile 2, annual profile 4, share of heavy goods vehi-cles 0%, cross section capacity 1500 [veh/lane/h]:
0 1 2 3 4 5 6 7
x 104
105
106
107
Average Weekday Traffic (AWT)
Annu
al C
ost (
CHF/
km)
2Lane 100kmph3Lane 100kmph2Lane 120kmph3Lane 120kmph
Figure 206: Design diagram for weekly profile 2, annual profile 5, share of heavy goods vehi-cles 0%, cross section capacity 1500 [veh/lane/h]:
0 1 2 3 4 5 6 7
x 104
105
106
107
Average Weekday Traffic (AWT)
Annu
al C
ost (
CHF/
km)
2Lane 100kmph3Lane 100kmph2Lane 120kmph3Lane 120kmph
130
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Design diagrams for road infrastructure elements: High capacity roads July 2009
Figure 207: Design diagram for weekly profile 3, annual profile 1, share of heavy goods vehi-cles 0%, cross section capacity 1500 [veh/lane/h]:
0 1 2 3 4 5 6 7
x 104
105
106
107
Average Weekday Traffic (AWT)
Annu
al C
ost (
CHF/
km)
2Lane 100kmph3Lane 100kmph2Lane 120kmph3Lane 120kmph
Figure 208: Design diagram for weekly profile 3, annual profile 2, share of heavy goods vehi-cles 0%, cross section capacity 1500 [veh/lane/h]:
0 1 2 3 4 5 6 7
x 104
105
106
107
Average Weekday Traffic (AWT)
Annu
al C
ost (
CHF/
km)
2Lane 100kmph3Lane 100kmph2Lane 120kmph3Lane 120kmph
131
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Design diagrams for road infrastructure elements: High capacity roads July 2009
Figure 209: Design diagram for weekly profile 3, annual profile 3, share of heavy goods vehi-cles 0%, cross section capacity 1500 [veh/lane/h]:
0 1 2 3 4 5 6 7
x 104
105
106
107
Average Weekday Traffic (AWT)
Annu
al C
ost (
CHF/
km)
2Lane 100kmph3Lane 100kmph2Lane 120kmph3Lane 120kmph
Figure 210: Design diagram for weekly profile 3, annual profile 4, share of heavy goods vehi-cles 0%, cross section capacity 1500 [veh/lane/h]:
0 1 2 3 4 5 6 7
x 104
105
106
107
Average Weekday Traffic (AWT)
Annu
al C
ost (
CH
F/km
)
2Lane 100kmph3Lane 100kmph2Lane 120kmph3Lane 120kmph
132
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Design diagrams for road infrastructure elements: High capacity roads July 2009
Figure 211: Design diagram for weekly profile 3, annual profile 5, share of heavy goods vehi-cles 0%, cross section capacity 1500 [veh/lane/h]:
0 1 2 3 4 5 6 7
x 104
105
106
107
Average Weekday Traffic (AWT)
Annu
al C
ost (
CHF/
km)
2Lane 100kmph3Lane 100kmph2Lane 120kmph3Lane 120kmph
Figure 212: Design diagram for weekly profile 4, annual profile 1, share of heavy goods vehi-cles 0%, cross section capacity 1500 [veh/lane/h]:
0 1 2 3 4 5 6 7
x 104
105
106
107
Average Weekday Traffic (AWT)
Annu
al C
ost (
CHF/
km)
2Lane 100kmph3Lane 100kmph2Lane 120kmph3Lane 120kmph
133
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Design diagrams for road infrastructure elements: High capacity roads July 2009
Figure 213: Design diagram for weekly profile 4, annual profile 2, share of heavy goods vehi-cles 0%, cross section capacity 1500 [veh/lane/h]:
0 1 2 3 4 5 6 7
x 104
105
106
107
Average Weekday Traffic (AWT)
Annu
al C
ost (
CHF/
km)
2Lane 100kmph3Lane 100kmph2Lane 120kmph3Lane 120kmph
Figure 214: Design diagram for weekly profile 4, annual profile 3, share of heavy goods vehi-cles 0%, cross section capacity 1500 [veh/lane/h]:
0 1 2 3 4 5 6 7
x 104
105
106
107
Average Weekday Traffic (AWT)
Annu
al C
ost (
CHF/
km)
2Lane 100kmph3Lane 100kmph2Lane 120kmph3Lane 120kmph
134
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Design diagrams for road infrastructure elements: High capacity roads July 2009
Figure 215: Design diagram for weekly profile 4, annual profile 4, share of heavy goods vehi-cles 0%, cross section capacity 1500 [veh/lane/h]:
0 1 2 3 4 5 6 7
x 104
105
106
107
Average Weekday Traffic (AWT)
Annu
al C
ost (
CHF/
km)
2Lane 100kmph3Lane 100kmph2Lane 120kmph3Lane 120kmph
Figure 216: Design diagram for weekly profile 4, annual profile 5, share of heavy goods vehi-cles 0%, cross section capacity 1500 [veh/lane/h]:
0 1 2 3 4 5 6 7
x 104
105
106
107
Average Weekday Traffic (AWT)
Annu
al C
ost (
CHF/
km)
2Lane 100kmph3Lane 100kmph2Lane 120kmph3Lane 120kmph
135
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Design diagrams for road infrastructure elements: High capacity roads July 2009
Figure 217: Design diagram for weekly profile 5, annual profile 1, share of heavy goods vehi-cles 0%, cross section capacity 1500 [veh/lane/h]:
0 1 2 3 4 5 6 7
x 104
105
106
107
Average Weekday Traffic (AWT)
Annu
al C
ost (
CHF/
km)
2Lane 100kmph3Lane 100kmph2Lane 120kmph3Lane 120kmph
Figure 218: Design diagram for weekly profile 5, annual profile 2, share of heavy goods vehi-cles 0%, cross section capacity 1500 [veh/lane/h]:
0 1 2 3 4 5 6 7
x 104
105
106
107
Average Weekday Traffic (AWT)
Annu
al C
ost (
CHF/
km)
2Lane 100kmph3Lane 100kmph2Lane 120kmph3Lane 120kmph
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Design diagrams for road infrastructure elements: High capacity roads July 2009
Figure 219: Design diagram for weekly profile 5, annual profile 3, share of heavy goods vehi-cles 0%, cross section capacity 1500 [veh/lane/h]:
0 1 2 3 4 5 6 7
x 104
105
106
107
Average Weekday Traffic (AWT)
Annu
al C
ost (
CHF/
km)
2Lane 100kmph3Lane 100kmph2Lane 120kmph3Lane 120kmph
Figure 220: Design diagram for weekly profile 5, annual profile 4, share of heavy goods vehi-cles 0%, cross section capacity 1500 [veh/lane/h]:
0 1 2 3 4 5 6 7
x 104
105
106
107
Average Weekday Traffic (AWT)
Annu
al C
ost (
CHF/
km)
2Lane 100kmph3Lane 100kmph2Lane 120kmph3Lane 120kmph
137
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Design diagrams for road infrastructure elements: High capacity roads July 2009
Figure 221: Design diagram for weekly profile 5, annual profile 5, share of heavy goods vehi-cles 0%, cross section capacity 1500 [veh/lane/h]:
0 1 2 3 4 5 6 7
x 104
105
106
107
Average Weekday Traffic (AWT)
Annu
al C
ost (
CHF/
km)
2Lane 100kmph3Lane 100kmph2Lane 120kmph3Lane 120kmph
Figure 222: Design diagram for weekly profile 6, annual profile 1, share of heavy goods vehi-cles 0%, cross section capacity 1500 [veh/lane/h]:
0 1 2 3 4 5 6 7
x 104
105
106
107
Average Weekday Traffic (AWT)
Annu
al C
ost (
CHF/
km)
2Lane 100kmph3Lane 100kmph2Lane 120kmph3Lane 120kmph
138
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Design diagrams for road infrastructure elements: High capacity roads July 2009
Figure 223: Design diagram for weekly profile 6, annual profile 2, share of heavy goods vehi-cles 0%, cross section capacity 1500 [veh/lane/h]:
0 1 2 3 4 5 6 7
x 104
105
106
107
Average Weekday Traffic (AWT)
Annu
al C
ost (
CHF/
km)
2Lane 100kmph3Lane 100kmph2Lane 120kmph3Lane 120kmph
Figure 224: Design diagram for weekly profile 6, annual profile 3, share of heavy goods vehi-cles 0%, cross section capacity 1500 [veh/lane/h]:
0 1 2 3 4 5 6 7
x 104
105
106
107
Average Weekday Traffic (AWT)
Annu
al C
ost (
CHF/
km)
2Lane 100kmph3Lane 100kmph2Lane 120kmph3Lane 120kmph
139
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Design diagrams for road infrastructure elements: High capacity roads July 2009
Figure 225: Design diagram for weekly profile 6, annual profile 4, share of heavy goods vehi-cles 0%, cross section capacity 1500 [veh/lane/h]:
0 1 2 3 4 5 6 7
x 104
105
106
107
Average Weekday Traffic (AWT)
Annu
al C
ost (
CHF/
km)
2Lane 100kmph3Lane 100kmph2Lane 120kmph3Lane 120kmph
Figure 226: Design diagram for weekly profile 6, annual profile 5, share of heavy goods vehi-cles 0%, cross section capacity 1500 [veh/lane/h]:
0 1 2 3 4 5 6 7
x 104
105
106
107
Average Weekday Traffic (AWT)
Annu
al C
ost (
CHF/
km)
2Lane 100kmph3Lane 100kmph2Lane 120kmph3Lane 120kmph
140
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Design diagrams for road infrastructure elements: High capacity roads July 2009
Figure 227: Design diagram for weekly profile 7, annual profile 1, share of heavy goods vehi-cles 0%, cross section capacity 1500 [veh/lane/h]:
0 1 2 3 4 5 6 7
x 104
105
106
107
Average Weekday Traffic (AWT)
Annu
al C
ost (
CHF/
km)
2Lane 100kmph3Lane 100kmph2Lane 120kmph3Lane 120kmph
Figure 228: Design diagram for weekly profile 7, annual profile 2, share of heavy goods vehi-cles 0%, cross section capacity 1500 [veh/lane/h]:
0 1 2 3 4 5 6 7
x 104
105
106
107
Average Weekday Traffic (AWT)
Annu
al C
ost (
CHF/
km)
2Lane 100kmph3Lane 100kmph2Lane 120kmph3Lane 120kmph
141
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Design diagrams for road infrastructure elements: High capacity roads July 2009
Figure 229: Design diagram for weekly profile 7, annual profile 3, share of heavy goods vehi-cles 0%, cross section capacity 1500 [veh/lane/h]:
0 1 2 3 4 5 6 7
x 104
105
106
107
Average Weekday Traffic (AWT)
Annu
al C
ost (
CHF/
km)
2Lane 100kmph3Lane 100kmph2Lane 120kmph3Lane 120kmph
Figure 230: Design diagram for weekly profile 7, annual profile 4, share of heavy goods vehi-cles 0%, cross section capacity 1500 [veh/lane/h]:
0 1 2 3 4 5 6 7
x 104
105
106
107
Average Weekday Traffic (AWT)
Annu
al C
ost (
CHF/
km)
2Lane 100kmph3Lane 100kmph2Lane 120kmph3Lane 120kmph
142
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Design diagrams for road infrastructure elements: High capacity roads July 2009
Figure 231: Design diagram for weekly profile 7, annual profile 5, share of heavy goods vehi-cles 0%, cross section capacity 1500 [veh/lane/h]:
0 1 2 3 4 5 6 7
x 104
105
106
107
Average Weekday Traffic (AWT)
Annu
al C
ost (
CHF/
km)
2Lane 100kmph3Lane 100kmph2Lane 120kmph3Lane 120kmph
143
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Design diagrams for road infrastructure elements: High capacity roads July 2009
11.2 Cross section capacity: 1500 [veh/lane/h] and share of heavy goodsvehicles: 5 – 15%
Figure 232: Design diagram for weekly profile 1, annual profile 1, share of heavy goods vehi-cles 5%, cross section capacity 1500 [veh/lane/h]:
0 1 2 3 4 5 6 7
x 104
105
106
107
Average Weekday Traffic (AWT)
Annu
al C
ost (
CHF/
km)
2Lane 100kmph3Lane 100kmph2Lane 120kmph3Lane 120kmph
Figure 233: Design diagram for weekly profile 1, annual profile 2, share of heavy goods vehi-cles 5%, cross section capacity 1500 [veh/lane/h]:
0 1 2 3 4 5 6 7
x 104
105
106
107
Average Weekday Traffic (AWT)
Annu
al C
ost (
CHF/
km)
2Lane 100kmph3Lane 100kmph2Lane 120kmph3Lane 120kmph
144
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Design diagrams for road infrastructure elements: High capacity roads July 2009
Figure 234: Design diagram for weekly profile 1, annual profile 3, share of heavy goods vehi-cles 5%, cross section capacity 1500 [veh/lane/h]:
0 1 2 3 4 5 6 7
x 104
105
106
107
Average Weekday Traffic (AWT)
Annu
al C
ost (
CH
F/km
)
2Lane 100kmph3Lane 100kmph2Lane 120kmph3Lane 120kmph
Figure 235: Design diagram for weekly profile 1, annual profile 4, share of heavy goods vehi-cles 5%, cross section capacity 1500 [veh/lane/h]:
0 1 2 3 4 5 6 7
x 104
105
106
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Average Weekday Traffic (AWT)
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Design diagrams for road infrastructure elements: High capacity roads July 2009
Figure 236: Design diagram for weekly profile 1, annual profile 5, share of heavy goods vehi-cles 5%, cross section capacity 1500 [veh/lane/h]:
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Figure 237: Design diagram for weekly profile 2, annual profile 1, share of heavy goods vehi-cles 5%, cross section capacity 1500 [veh/lane/h]:
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Design diagrams for road infrastructure elements: High capacity roads July 2009
Figure 238: Design diagram for weekly profile 2, annual profile 2, share of heavy goods vehi-cles 5%, cross section capacity 1500 [veh/lane/h]:
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Figure 239: Design diagram for weekly profile 2, annual profile 3, share of heavy goods vehi-cles 5%, cross section capacity 1500 [veh/lane/h]:
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Design diagrams for road infrastructure elements: High capacity roads July 2009
Figure 240: Design diagram for weekly profile 2, annual profile 4, share of heavy goods vehi-cles 5%, cross section capacity 1500 [veh/lane/h]:
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Figure 241: Design diagram for weekly profile 2, annual profile 5, share of heavy goods vehi-cles 5%, cross section capacity 1500 [veh/lane/h]:
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Design diagrams for road infrastructure elements: High capacity roads July 2009
Figure 242: Design diagram for weekly profile 3, annual profile 1, share of heavy goods vehi-cles 5%, cross section capacity 1500 [veh/lane/h]:
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Figure 243: Design diagram for weekly profile 3, annual profile 2, share of heavy goods vehi-cles 5%, cross section capacity 1500 [veh/lane/h]:
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Design diagrams for road infrastructure elements: High capacity roads July 2009
Figure 244: Design diagram for weekly profile 3, annual profile 3, share of heavy goods vehi-cles 5%, cross section capacity 1500 [veh/lane/h]:
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Figure 245: Design diagram for weekly profile 3, annual profile 4, share of heavy goods vehi-cles 5%, cross section capacity 1500 [veh/lane/h]:
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Design diagrams for road infrastructure elements: High capacity roads July 2009
Figure 246: Design diagram for weekly profile 3, annual profile 5, share of heavy goods vehi-cles 5%, cross section capacity 1500 [veh/lane/h]:
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Figure 247: Design diagram for weekly profile 4, annual profile 1, share of heavy goods vehi-cles 5%, cross section capacity 1500 [veh/lane/h]:
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Design diagrams for road infrastructure elements: High capacity roads July 2009
Figure 248: Design diagram for weekly profile 4, annual profile 2, share of heavy goods vehi-cles 5%, cross section capacity 1500 [veh/lane/h]:
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Figure 249: Design diagram for weekly profile 4, annual profile 3, share of heavy goods vehi-cles 5%, cross section capacity 1500 [veh/lane/h]:
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Design diagrams for road infrastructure elements: High capacity roads July 2009
Figure 250: Design diagram for weekly profile 4, annual profile 4, share of heavy goods vehi-cles 5%, cross section capacity 1500 [veh/lane/h]:
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Figure 251: Design diagram for weekly profile 4, annual profile 5, share of heavy goods vehi-cles 5%, cross section capacity 1500 [veh/lane/h]:
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Design diagrams for road infrastructure elements: High capacity roads July 2009
Figure 252: Design diagram for weekly profile 5, annual profile 1, share of heavy goods vehi-cles 5%, cross section capacity 1500 [veh/lane/h]:
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Figure 253: Design diagram for weekly profile 5, annual profile 2, share of heavy goods vehi-cles 5%, cross section capacity 1500 [veh/lane/h]:
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Design diagrams for road infrastructure elements: High capacity roads July 2009
Figure 254: Design diagram for weekly profile 5, annual profile 3, share of heavy goods vehi-cles 5%, cross section capacity 1500 [veh/lane/h]:
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Figure 255: Design diagram for weekly profile 5, annual profile 4, share of heavy goods vehi-cles 5%, cross section capacity 1500 [veh/lane/h]:
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Design diagrams for road infrastructure elements: High capacity roads July 2009
Figure 256: Design diagram for weekly profile 5, annual profile 5, share of heavy goods vehi-cles 5%, cross section capacity 1500 [veh/lane/h]:
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Figure 257: Design diagram for weekly profile 6, annual profile 1, share of heavy goods vehi-cles 5%, cross section capacity 1500 [veh/lane/h]:
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Design diagrams for road infrastructure elements: High capacity roads July 2009
Figure 258: Design diagram for weekly profile 6, annual profile 2, share of heavy goods vehi-cles 5%, cross section capacity 1500 [veh/lane/h]:
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Figure 259: Design diagram for weekly profile 6, annual profile 3, share of heavy goods vehi-cles 5%, cross section capacity 1500 [veh/lane/h]:
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Design diagrams for road infrastructure elements: High capacity roads July 2009
Figure 260: Design diagram for weekly profile 6, annual profile 4, share of heavy goods vehi-cles 5%, cross section capacity 1500 [veh/lane/h]:
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Figure 261: Design diagram for weekly profile 6, annual profile 5, share of heavy goods vehi-cles 5%, cross section capacity 1500 [veh/lane/h]:
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Design diagrams for road infrastructure elements: High capacity roads July 2009
Figure 262: Design diagram for weekly profile 7, annual profile 1, share of heavy goods vehi-cles 5%, cross section capacity 1500 [veh/lane/h]:
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Figure 263: Design diagram for weekly profile 7, annual profile 2, share of heavy goods vehi-cles 5%, cross section capacity 1500 [veh/lane/h]:
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Design diagrams for road infrastructure elements: High capacity roads July 2009
Figure 264: Design diagram for weekly profile 7, annual profile 3, share of heavy goods vehi-cles 5%, cross section capacity 1500 [veh/lane/h]:
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Figure 265: Design diagram for weekly profile 7, annual profile 4, share of heavy goods vehi-cles 5%, cross section capacity 1500 [veh/lane/h]:
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Design diagrams for road infrastructure elements: High capacity roads July 2009
Figure 266: Design diagram for weekly profile 7, annual profile 5, share of heavy goods vehi-cles 5%, cross section capacity 1500 [veh/lane/h]:
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Design diagrams for road infrastructure elements: High capacity roads July 2009
11.3 Cross section capacity: 1500 [veh/lane/h] and share of heavy goodsvehicles: 15 – 25%
Figure 267: Design diagram for weekly profile 1, annual profile 1, share of heavy goods vehi-cles 15%, cross section capacity 1500 [veh/lane/h]:
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Figure 268: Design diagram for weekly profile 1, annual profile 2, share of heavy goods vehi-cles 15%, cross section capacity 1500 [veh/lane/h]:
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Design diagrams for road infrastructure elements: High capacity roads July 2009
Figure 269: Design diagram for weekly profile 1, annual profile 3, share of heavy goods vehi-cles 15%, cross section capacity 1500 [veh/lane/h]:
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Figure 270: Design diagram for weekly profile 1, annual profile 4, share of heavy goods vehi-cles 15%, cross section capacity 1500 [veh/lane/h]:
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Design diagrams for road infrastructure elements: High capacity roads July 2009
Figure 271: Design diagram for weekly profile 1, annual profile 5, share of heavy goods vehi-cles 15%, cross section capacity 1500 [veh/lane/h]:
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Figure 272: Design diagram for weekly profile 2, annual profile 1, share of heavy goods vehi-cles 15%, cross section capacity 1500 [veh/lane/h]:
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Design diagrams for road infrastructure elements: High capacity roads July 2009
Figure 273: Design diagram for weekly profile 2, annual profile 2, share of heavy goods vehi-cles 15%, cross section capacity 1500 [veh/lane/h]:
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Figure 274: Design diagram for weekly profile 2, annual profile 3, share of heavy goods vehi-cles 15%, cross section capacity 1500 [veh/lane/h]:
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Design diagrams for road infrastructure elements: High capacity roads July 2009
Figure 275: Design diagram for weekly profile 2, annual profile 4, share of heavy goods vehi-cles 15%, cross section capacity 1500 [veh/lane/h]:
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Figure 276: Design diagram for weekly profile 2, annual profile 5, share of heavy goods vehi-cles 15%, cross section capacity 1500 [veh/lane/h]:
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Design diagrams for road infrastructure elements: High capacity roads July 2009
Figure 277: Design diagram for weekly profile 3, annual profile 1, share of heavy goods vehi-cles 15%, cross section capacity 1500 [veh/lane/h]:
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Figure 278: Design diagram for weekly profile 3, annual profile 2, share of heavy goods vehi-cles 15%, cross section capacity 1500 [veh/lane/h]:
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Design diagrams for road infrastructure elements: High capacity roads July 2009
Figure 279: Design diagram for weekly profile 3, annual profile 3, share of heavy goods vehi-cles 15%, cross section capacity 1500 [veh/lane/h]:
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Figure 280: Design diagram for weekly profile 3, annual profile 4, share of heavy goods vehi-cles 15%, cross section capacity 1500 [veh/lane/h]:
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Design diagrams for road infrastructure elements: High capacity roads July 2009
Figure 281: Design diagram for weekly profile 3, annual profile 5, share of heavy goods vehi-cles 15%, cross section capacity 1500 [veh/lane/h]:
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Figure 282: Design diagram for weekly profile 4, annual profile 1, share of heavy goods vehi-cles 15%, cross section capacity 1500 [veh/lane/h]:
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Design diagrams for road infrastructure elements: High capacity roads July 2009
Figure 283: Design diagram for weekly profile 4, annual profile 2, share of heavy goods vehi-cles 15%, cross section capacity 1500 [veh/lane/h]:
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Figure 284: Design diagram for weekly profile 4, annual profile 3, share of heavy goods vehi-cles 15%, cross section capacity 1500 [veh/lane/h]:
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Design diagrams for road infrastructure elements: High capacity roads July 2009
Figure 285: Design diagram for weekly profile 4, annual profile 4, share of heavy goods vehi-cles 15%, cross section capacity 1500 [veh/lane/h]:
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Figure 286: Design diagram for weekly profile 4, annual profile 5, share of heavy goods vehi-cles 15%, cross section capacity 1500 [veh/lane/h]:
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Design diagrams for road infrastructure elements: High capacity roads July 2009
Figure 287: Design diagram for weekly profile 5, annual profile 1, share of heavy goods vehi-cles 15%, cross section capacity 1500 [veh/lane/h]:
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Figure 288: Design diagram for weekly profile 5, annual profile 2, share of heavy goods vehi-cles 15%, cross section capacity 1500 [veh/lane/h]:
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Design diagrams for road infrastructure elements: High capacity roads July 2009
Figure 289: Design diagram for weekly profile 5, annual profile 3, share of heavy goods vehi-cles 15%, cross section capacity 1500 [veh/lane/h]:
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Figure 290: Design diagram for weekly profile 5, annual profile 4, share of heavy goods vehi-cles 15%, cross section capacity 1500 [veh/lane/h]:
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Design diagrams for road infrastructure elements: High capacity roads July 2009
Figure 291: Design diagram for weekly profile 5, annual profile 5, share of heavy goods vehi-cles 15%, cross section capacity 1500 [veh/lane/h]:
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Figure 292: Design diagram for weekly profile 6, annual profile 1, share of heavy goods vehi-cles 15%, cross section capacity 1500 [veh/lane/h]:
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Design diagrams for road infrastructure elements: High capacity roads July 2009
Figure 293: Design diagram for weekly profile 6, annual profile 2, share of heavy goods vehi-cles 15%, cross section capacity 1500 [veh/lane/h]:
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Figure 294: Design diagram for weekly profile 6, annual profile 3, share of heavy goods vehi-cles 15%, cross section capacity 1500 [veh/lane/h]:
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Design diagrams for road infrastructure elements: High capacity roads July 2009
Figure 295: Design diagram for weekly profile 6, annual profile 4, share of heavy goods vehi-cles 15%, cross section capacity 1500 [veh/lane/h]:
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Figure 296: Design diagram for weekly profile 6, annual profile 5, share of heavy goods vehi-cles 15%, cross section capacity 1500 [veh/lane/h]:
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Design diagrams for road infrastructure elements: High capacity roads July 2009
Figure 297: Design diagram for weekly profile 7, annual profile 1, share of heavy goods vehi-cles 15%, cross section capacity 1500 [veh/lane/h]:
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Figure 298: Design diagram for weekly profile 7, annual profile 2, share of heavy goods vehi-cles 15%, cross section capacity 1500 [veh/lane/h]:
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Design diagrams for road infrastructure elements: High capacity roads July 2009
Figure 299: Design diagram for weekly profile 7, annual profile 3, share of heavy goods vehi-cles 15%, cross section capacity 1500 [veh/lane/h]:
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Figure 300: Design diagram for weekly profile 7, annual profile 4, share of heavy goods vehi-cles 15%, cross section capacity 1500 [veh/lane/h]:
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Design diagrams for road infrastructure elements: High capacity roads July 2009
Figure 301: Design diagram for weekly profile 7, annual profile 5, share of heavy goods vehi-cles 15%, cross section capacity 1500 [veh/lane/h]:
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Design diagrams for road infrastructure elements: High capacity roads July 2009
11.4 Cross section capacity: 1750 [veh/lane/h] and share of heavy goodsvehicles: 0 – 5%
Figure 302: Design diagram for weekly profile 1, annual profile 1, share of heavy goods vehi-cles 0%, cross section capacity 1750 [veh/lane/h]:
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Figure 303: Design diagram for weekly profile 1, annual profile 2, share of heavy goods vehi-cles 0%, cross section capacity 1750 [veh/lane/h]:
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Design diagrams for road infrastructure elements: High capacity roads July 2009
Figure 304: Design diagram for weekly profile 1, annual profile 3, share of heavy goods vehi-cles 0%, cross section capacity 1750 [veh/lane/h]:
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Figure 305: Design diagram for weekly profile 1, annual profile 4, share of heavy goods vehi-cles 0%, cross section capacity 1750 [veh/lane/h]:
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Design diagrams for road infrastructure elements: High capacity roads July 2009
Figure 306: Design diagram for weekly profile 1, annual profile 5, share of heavy goods vehi-cles 0%, cross section capacity 1750 [veh/lane/h]:
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Figure 307: Design diagram for weekly profile 2, annual profile 1, share of heavy goods vehi-cles 0%, cross section capacity 1750 [veh/lane/h]:
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Design diagrams for road infrastructure elements: High capacity roads July 2009
Figure 308: Design diagram for weekly profile 2, annual profile 2, share of heavy goods vehi-cles 0%, cross section capacity 1750 [veh/lane/h]:
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Figure 309: Design diagram for weekly profile 2, annual profile 3, share of heavy goods vehi-cles 0%, cross section capacity 1750 [veh/lane/h]:
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Design diagrams for road infrastructure elements: High capacity roads July 2009
Figure 310: Design diagram for weekly profile 2, annual profile 4, share of heavy goods vehi-cles 0%, cross section capacity 1750 [veh/lane/h]:
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Figure 311: Design diagram for weekly profile 2, annual profile 5, share of heavy goods vehi-cles 0%, cross section capacity 1750 [veh/lane/h]:
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Design diagrams for road infrastructure elements: High capacity roads July 2009
Figure 312: Design diagram for weekly profile 3, annual profile 1, share of heavy goods vehi-cles 0%, cross section capacity 1750 [veh/lane/h]:
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Figure 313: Design diagram for weekly profile 3, annual profile 2, share of heavy goods vehi-cles 0%, cross section capacity 1750 [veh/lane/h]:
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Design diagrams for road infrastructure elements: High capacity roads July 2009
Figure 314: Design diagram for weekly profile 3, annual profile 3, share of heavy goods vehi-cles 0%, cross section capacity 1750 [veh/lane/h]:
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Figure 315: Design diagram for weekly profile 3, annual profile 4, share of heavy goods vehi-cles 0%, cross section capacity 1750 [veh/lane/h]:
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Design diagrams for road infrastructure elements: High capacity roads July 2009
Figure 316: Design diagram for weekly profile 3, annual profile 5, share of heavy goods vehi-cles 0%, cross section capacity 1750 [veh/lane/h]:
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Figure 317: Design diagram for weekly profile 4, annual profile 1, share of heavy goods vehi-cles 0%, cross section capacity 1750 [veh/lane/h]:
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Design diagrams for road infrastructure elements: High capacity roads July 2009
Figure 318: Design diagram for weekly profile 4, annual profile 2, share of heavy goods vehi-cles 0%, cross section capacity 1750 [veh/lane/h]:
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Figure 319: Design diagram for weekly profile 4, annual profile 3, share of heavy goods vehi-cles 0%, cross section capacity 1750 [veh/lane/h]:
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Design diagrams for road infrastructure elements: High capacity roads July 2009
Figure 320: Design diagram for weekly profile 4, annual profile 4, share of heavy goods vehi-cles 0%, cross section capacity 1750 [veh/lane/h]:
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Figure 321: Design diagram for weekly profile 4, annual profile 5, share of heavy goods vehi-cles 0%, cross section capacity 1750 [veh/lane/h]:
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Design diagrams for road infrastructure elements: High capacity roads July 2009
Figure 322: Design diagram for weekly profile 5, annual profile 1, share of heavy goods vehi-cles 0%, cross section capacity 1750 [veh/lane/h]:
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Figure 323: Design diagram for weekly profile 5, annual profile 2, share of heavy goods vehi-cles 0%, cross section capacity 1750 [veh/lane/h]:
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Design diagrams for road infrastructure elements: High capacity roads July 2009
Figure 324: Design diagram for weekly profile 5, annual profile 3, share of heavy goods vehi-cles 0%, cross section capacity 1750 [veh/lane/h]:
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Figure 325: Design diagram for weekly profile 5, annual profile 4, share of heavy goods vehi-cles 0%, cross section capacity 1750 [veh/lane/h]:
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Design diagrams for road infrastructure elements: High capacity roads July 2009
Figure 326: Design diagram for weekly profile 5, annual profile 5, share of heavy goods vehi-cles 0%, cross section capacity 1750 [veh/lane/h]:
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Figure 327: Design diagram for weekly profile 6, annual profile 1, share of heavy goods vehi-cles 0%, cross section capacity 1750 [veh/lane/h]:
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Design diagrams for road infrastructure elements: High capacity roads July 2009
Figure 328: Design diagram for weekly profile 6, annual profile 2, share of heavy goods vehi-cles 0%, cross section capacity 1750 [veh/lane/h]:
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Figure 329: Design diagram for weekly profile 6, annual profile 3, share of heavy goods vehi-cles 0%, cross section capacity 1750 [veh/lane/h]:
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Design diagrams for road infrastructure elements: High capacity roads July 2009
Figure 330: Design diagram for weekly profile 6, annual profile 4, share of heavy goods vehi-cles 0%, cross section capacity 1750 [veh/lane/h]:
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Figure 331: Design diagram for weekly profile 6, annual profile 5, share of heavy goods vehi-cles 0%, cross section capacity 1750 [veh/lane/h]:
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Design diagrams for road infrastructure elements: High capacity roads July 2009
Figure 332: Design diagram for weekly profile 7, annual profile 1, share of heavy goods vehi-cles 0%, cross section capacity 1750 [veh/lane/h]:
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Figure 333: Design diagram for weekly profile 7, annual profile 2, share of heavy goods vehi-cles 0%, cross section capacity 1750 [veh/lane/h]:
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Design diagrams for road infrastructure elements: High capacity roads July 2009
Figure 334: Design diagram for weekly profile 7, annual profile 3, share of heavy goods vehi-cles 0%, cross section capacity 1750 [veh/lane/h]:
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Figure 335: Design diagram for weekly profile 7, annual profile 4, share of heavy goods vehi-cles 0%, cross section capacity 1750 [veh/lane/h]:
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Design diagrams for road infrastructure elements: High capacity roads July 2009
Figure 336: Design diagram for weekly profile 7, annual profile 5, share of heavy goods vehi-cles 0%, cross section capacity 1750 [veh/lane/h]:
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Design diagrams for road infrastructure elements: High capacity roads July 2009
11.5 Cross section capacity: 1750 [veh/lane/h] and share of heavy goodsvehicles: 5 – 15%
Figure 337: Design diagram for weekly profile 1, annual profile 1, share of heavy goods vehi-cles 5%, cross section capacity 1750 [veh/lane/h]:
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Figure 338: Design diagram for weekly profile 1, annual profile 2, share of heavy goods vehi-cles 5%, cross section capacity 1750 [veh/lane/h]:
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Design diagrams for road infrastructure elements: High capacity roads July 2009
Figure 339: Design diagram for weekly profile 1, annual profile 3, share of heavy goods vehi-cles 5%, cross section capacity 1750 [veh/lane/h]:
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Figure 340: Design diagram for weekly profile 1, annual profile 4, share of heavy goods vehi-cles 5%, cross section capacity 1750 [veh/lane/h]:
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Design diagrams for road infrastructure elements: High capacity roads July 2009
Figure 341: Design diagram for weekly profile 1, annual profile 5, share of heavy goods vehi-cles 5%, cross section capacity 1750 [veh/lane/h]:
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Figure 342: Design diagram for weekly profile 2, annual profile 1, share of heavy goods vehi-cles 5%, cross section capacity 1750 [veh/lane/h]:
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Design diagrams for road infrastructure elements: High capacity roads July 2009
Figure 343: Design diagram for weekly profile 2, annual profile 2, share of heavy goods vehi-cles 5%, cross section capacity 1750 [veh/lane/h]:
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Figure 344: Design diagram for weekly profile 2, annual profile 3, share of heavy goods vehi-cles 5%, cross section capacity 1750 [veh/lane/h]:
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Design diagrams for road infrastructure elements: High capacity roads July 2009
Figure 345: Design diagram for weekly profile 2, annual profile 4, share of heavy goods vehi-cles 5%, cross section capacity 1750 [veh/lane/h]:
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Figure 346: Design diagram for weekly profile 2, annual profile 5, share of heavy goods vehi-cles 5%, cross section capacity 1750 [veh/lane/h]:
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Design diagrams for road infrastructure elements: High capacity roads July 2009
Figure 347: Design diagram for weekly profile 3, annual profile 1, share of heavy goods vehi-cles 5%, cross section capacity 1750 [veh/lane/h]:
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Figure 348: Design diagram for weekly profile 3, annual profile 2, share of heavy goods vehi-cles 5%, cross section capacity 1750 [veh/lane/h]:
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Design diagrams for road infrastructure elements: High capacity roads July 2009
Figure 349: Design diagram for weekly profile 3, annual profile 3, share of heavy goods vehi-cles 5%, cross section capacity 1750 [veh/lane/h]:
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Figure 350: Design diagram for weekly profile 3, annual profile 4, share of heavy goods vehi-cles 5%, cross section capacity 1750 [veh/lane/h]:
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Design diagrams for road infrastructure elements: High capacity roads July 2009
Figure 351: Design diagram for weekly profile 3, annual profile 5, share of heavy goods vehi-cles 5%, cross section capacity 1750 [veh/lane/h]:
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Figure 352: Design diagram for weekly profile 4, annual profile 1, share of heavy goods vehi-cles 5%, cross section capacity 1750 [veh/lane/h]:
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Design diagrams for road infrastructure elements: High capacity roads July 2009
Figure 353: Design diagram for weekly profile 4, annual profile 2, share of heavy goods vehi-cles 5%, cross section capacity 1750 [veh/lane/h]:
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Figure 354: Design diagram for weekly profile 4, annual profile 3, share of heavy goods vehi-cles 5%, cross section capacity 1750 [veh/lane/h]:
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Design diagrams for road infrastructure elements: High capacity roads July 2009
Figure 355: Design diagram for weekly profile 4, annual profile 4, share of heavy goods vehi-cles 5%, cross section capacity 1750 [veh/lane/h]:
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Figure 356: Design diagram for weekly profile 4, annual profile 5, share of heavy goods vehi-cles 5%, cross section capacity 1750 [veh/lane/h]:
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Design diagrams for road infrastructure elements: High capacity roads July 2009
Figure 357: Design diagram for weekly profile 5, annual profile 1, share of heavy goods vehi-cles 5%, cross section capacity 1750 [veh/lane/h]:
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Figure 358: Design diagram for weekly profile 5, annual profile 2, share of heavy goods vehi-cles 5%, cross section capacity 1750 [veh/lane/h]:
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Design diagrams for road infrastructure elements: High capacity roads July 2009
Figure 359: Design diagram for weekly profile 5, annual profile 3, share of heavy goods vehi-cles 5%, cross section capacity 1750 [veh/lane/h]:
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Figure 360: Design diagram for weekly profile 5, annual profile 4, share of heavy goods vehi-cles 5%, cross section capacity 1750 [veh/lane/h]:
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Design diagrams for road infrastructure elements: High capacity roads July 2009
Figure 361: Design diagram for weekly profile 5, annual profile 5, share of heavy goods vehi-cles 5%, cross section capacity 1750 [veh/lane/h]:
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Figure 362: Design diagram for weekly profile 6, annual profile 1, share of heavy goods vehi-cles 5%, cross section capacity 1750 [veh/lane/h]:
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Design diagrams for road infrastructure elements: High capacity roads July 2009
Figure 363: Design diagram for weekly profile 6, annual profile 2, share of heavy goods vehi-cles 5%, cross section capacity 1750 [veh/lane/h]:
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Figure 364: Design diagram for weekly profile 6, annual profile 3, share of heavy goods vehi-cles 5%, cross section capacity 1750 [veh/lane/h]:
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Design diagrams for road infrastructure elements: High capacity roads July 2009
Figure 365: Design diagram for weekly profile 6, annual profile 4, share of heavy goods vehi-cles 5%, cross section capacity 1750 [veh/lane/h]:
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Figure 366: Design diagram for weekly profile 6, annual profile 5, share of heavy goods vehi-cles 5%, cross section capacity 1750 [veh/lane/h]:
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Design diagrams for road infrastructure elements: High capacity roads July 2009
Figure 367: Design diagram for weekly profile 7, annual profile 1, share of heavy goods vehi-cles 5%, cross section capacity 1750 [veh/lane/h]:
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Figure 368: Design diagram for weekly profile 7, annual profile 2, share of heavy goods vehi-cles 5%, cross section capacity 1750 [veh/lane/h]:
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Design diagrams for road infrastructure elements: High capacity roads July 2009
Figure 369: Design diagram for weekly profile 7, annual profile 3, share of heavy goods vehi-cles 5%, cross section capacity 1750 [veh/lane/h]:
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Figure 370: Design diagram for weekly profile 7, annual profile 4, share of heavy goods vehi-cles 5%, cross section capacity 1750 [veh/lane/h]:
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Design diagrams for road infrastructure elements: High capacity roads July 2009
Figure 371: Design diagram for weekly profile 7, annual profile 5, share of heavy goods vehi-cles 5%, cross section capacity 1750 [veh/lane/h]:
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Design diagrams for road infrastructure elements: High capacity roads July 2009
11.6 Cross section capacity: 1750 [veh/lane/h] and share of heavy goodsvehicles: 15 – 25%
Figure 372: Design diagram for weekly profile 1, annual profile 1, share of heavy goods vehi-cles 15%, cross section capacity 1750 [veh/lane/h]:
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Figure 373: Design diagram for weekly profile 1, annual profile 2, share of heavy goods vehi-cles 15%, cross section capacity 1750 [veh/lane/h]:
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Design diagrams for road infrastructure elements: High capacity roads July 2009
Figure 374: Design diagram for weekly profile 1, annual profile 3, share of heavy goods vehi-cles 15%, cross section capacity 1750 [veh/lane/h]:
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Figure 375: Design diagram for weekly profile 1, annual profile 4, share of heavy goods vehi-cles 15%, cross section capacity 1750 [veh/lane/h]:
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Design diagrams for road infrastructure elements: High capacity roads July 2009
Figure 376: Design diagram for weekly profile 1, annual profile 5, share of heavy goods vehi-cles 15%, cross section capacity 1750 [veh/lane/h]:
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Average Weekday Traffic (AWT)
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Figure 377: Design diagram for weekly profile 2, annual profile 1, share of heavy goods vehi-cles 15%, cross section capacity 1750 [veh/lane/h]:
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Design diagrams for road infrastructure elements: High capacity roads July 2009
Figure 378: Design diagram for weekly profile 2, annual profile 2, share of heavy goods vehi-cles 15%, cross section capacity 1750 [veh/lane/h]:
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Figure 379: Design diagram for weekly profile 2, annual profile 3, share of heavy goods vehi-cles 15%, cross section capacity 1750 [veh/lane/h]:
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Design diagrams for road infrastructure elements: High capacity roads July 2009
Figure 380: Design diagram for weekly profile 2, annual profile 4, share of heavy goods vehi-cles 15%, cross section capacity 1750 [veh/lane/h]:
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Figure 381: Design diagram for weekly profile 2, annual profile 5, share of heavy goods vehi-cles 15%, cross section capacity 1750 [veh/lane/h]:
0 1 2 3 4 5 6 7
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Design diagrams for road infrastructure elements: High capacity roads July 2009
Figure 382: Design diagram for weekly profile 3, annual profile 1, share of heavy goods vehi-cles 5%, cross section capacity 1750 [veh/lane/h]:
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Figure 383: Design diagram for weekly profile 3, annual profile 2, share of heavy goods vehi-cles 15%, cross section capacity 1750 [veh/lane/h]:
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Design diagrams for road infrastructure elements: High capacity roads July 2009
Figure 384: Design diagram for weekly profile 3, annual profile 3, share of heavy goods vehi-cles 15%, cross section capacity 1750 [veh/lane/h]:
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Figure 385: Design diagram for weekly profile 3, annual profile 4, share of heavy goods vehi-cles 15%, cross section capacity 1750 [veh/lane/h]:
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Design diagrams for road infrastructure elements: High capacity roads July 2009
Figure 386: Design diagram for weekly profile 3, annual profile 5, share of heavy goods vehi-cles 15%, cross section capacity 1750 [veh/lane/h]:
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Figure 387: Design diagram for weekly profile 4, annual profile 1, share of heavy goods vehi-cles 15%, cross section capacity 1750 [veh/lane/h]:
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Design diagrams for road infrastructure elements: High capacity roads July 2009
Figure 388: Design diagram for weekly profile 4, annual profile 2, share of heavy goods vehi-cles 5%, cross section capacity 1750 [veh/lane/h]:
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Figure 389: Design diagram for weekly profile 4, annual profile 3, share of heavy goods vehi-cles 15%, cross section capacity 1750 [veh/lane/h]:
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Design diagrams for road infrastructure elements: High capacity roads July 2009
Figure 390: Design diagram for weekly profile 4, annual profile 4, share of heavy goods vehi-cles 15%, cross section capacity 1750 [veh/lane/h]:
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Figure 391: Design diagram for weekly profile 4, annual profile 5, share of heavy goods vehi-cles 15%, cross section capacity 1750 [veh/lane/h]:
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Design diagrams for road infrastructure elements: High capacity roads July 2009
Figure 392: Design diagram for weekly profile 5, annual profile 1, share of heavy goods vehi-cles 15%, cross section capacity 1750 [veh/lane/h]:
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Figure 393: Design diagram for weekly profile 5, annual profile 2, share of heavy goods vehi-cles 15%, cross section capacity 1750 [veh/lane/h]:
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Design diagrams for road infrastructure elements: High capacity roads July 2009
Figure 394: Design diagram for weekly profile 5, annual profile 3, share of heavy goods vehi-cles 15%, cross section capacity 1750 [veh/lane/h]:
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Figure 395: Design diagram for weekly profile 5, annual profile 4, share of heavy goods vehi-cles 15%, cross section capacity 1750 [veh/lane/h]:
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Design diagrams for road infrastructure elements: High capacity roads July 2009
Figure 396: Design diagram for weekly profile 5, annual profile 5, share of heavy goods vehi-cles 15%, cross section capacity 1750 [veh/lane/h]:
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Figure 397: Design diagram for weekly profile 6, annual profile 1, share of heavy goods vehi-cles 15%, cross section capacity 1750 [veh/lane/h]:
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Design diagrams for road infrastructure elements: High capacity roads July 2009
Figure 398: Design diagram for weekly profile 6, annual profile 2, share of heavy goods vehi-cles 15%, cross section capacity 1750 [veh/lane/h]:
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Figure 399: Design diagram for weekly profile 6, annual profile 3, share of heavy goods vehi-cles 15%, cross section capacity 1750 [veh/lane/h]:
0 1 2 3 4 5 6 7
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Design diagrams for road infrastructure elements: High capacity roads July 2009
Figure 400: Design diagram for weekly profile 6, annual profile 4, share of heavy goods vehi-cles 15%, cross section capacity 1750 [veh/lane/h]:
0 1 2 3 4 5 6 7
x 104
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Figure 401: Design diagram for weekly profile 6, annual profile 5, share of heavy goods vehi-cles 15%, cross section capacity 1750 [veh/lane/h]:
0 1 2 3 4 5 6 7
x 104
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Design diagrams for road infrastructure elements: High capacity roads July 2009
Figure 402: Design diagram for weekly profile 7, annual profile 1, share of heavy goods vehi-cles 15%, cross section capacity 1750 [veh/lane/h]:
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x 104
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Average Weekday Traffic (AWT)
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Figure 403: Design diagram for weekly profile 7, annual profile 2, share of heavy goods vehi-cles 15%, cross section capacity 1750 [veh/lane/h]:
0 1 2 3 4 5 6 7
x 104
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Design diagrams for road infrastructure elements: High capacity roads July 2009
Figure 404: Design diagram for weekly profile 7, annual profile 3, share of heavy goods vehi-cles 15%, cross section capacity 1750 [veh/lane/h]:
0 1 2 3 4 5 6 7
x 104
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Average Weekday Traffic (AWT)
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Figure 405: Design diagram for weekly profile 7, annual profile 4, share of heavy goods vehi-cles 15%, cross section capacity 1750 [veh/lane/h]:
0 1 2 3 4 5 6 7
x 104
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Design diagrams for road infrastructure elements: High capacity roads July 2009
Figure 406: Design diagram for weekly profile 7, annual profile 5, share of heavy goods vehi-cles 15%, cross section capacity 1750 [veh/lane/h]:
0 1 2 3 4 5 6 7
x 104
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Design diagrams for road infrastructure elements: High capacity roads July 2009
11.7 Cross section capacity: 2000 [veh/lane/h] and share of heavy goodsvehicles: 0 – 5%
Figure 407: Design diagram for weekly profile 1, annual profile 1, share of heavy goods vehi-cles 0%, cross section capacity 2000 [veh/lane/h]:
0 1 2 3 4 5 6 7
x 104
105
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Average Weekday Traffic (AWT)
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km)
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Figure 408: Design diagram for weekly profile 1, annual profile 2, share of heavy goods vehi-cles 0%, cross section capacity 2000 [veh/lane/h]:
0 1 2 3 4 5 6 7
x 104
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Design diagrams for road infrastructure elements: High capacity roads July 2009
Figure 409: Design diagram for weekly profile 1, annual profile 3, share of heavy goods vehi-cles 0%, cross section capacity 2000 [veh/lane/h]:
0 1 2 3 4 5 6 7
x 104
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Average Weekday Traffic (AWT)
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Figure 410: Design diagram for weekly profile 1, annual profile 4, share of heavy goods vehi-cles 0%, cross section capacity 2000 [veh/lane/h]:
0 1 2 3 4 5 6 7
x 104
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Design diagrams for road infrastructure elements: High capacity roads July 2009
Figure 411: Design diagram for weekly profile 1, annual profile 5, share of heavy goods vehi-cles 0%, cross section capacity 2000 [veh/lane/h]:
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Average Weekday Traffic (AWT)
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Figure 412: Design diagram for weekly profile 2, annual profile 1, share of heavy goods vehi-cles 0%, cross section capacity 2000 [veh/lane/h]:
0 1 2 3 4 5 6 7
x 104
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Design diagrams for road infrastructure elements: High capacity roads July 2009
Figure 413: Design diagram for weekly profile 2, annual profile 2, share of heavy goods vehi-cles 0%, cross section capacity 2000 [veh/lane/h]:
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x 104
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Average Weekday Traffic (AWT)
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Figure 414: Design diagram for weekly profile 2, annual profile 3, share of heavy goods vehi-cles 0%, cross section capacity 2000 [veh/lane/h]:
0 1 2 3 4 5 6 7
x 104
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Design diagrams for road infrastructure elements: High capacity roads July 2009
Figure 415: Design diagram for weekly profile 2, annual profile 4, share of heavy goods vehi-cles 0%, cross section capacity 2000 [veh/lane/h]:
0 1 2 3 4 5 6 7
x 104
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Average Weekday Traffic (AWT)
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Figure 416: Design diagram for weekly profile 2, annual profile 5, share of heavy goods vehi-cles 0%, cross section capacity 2000 [veh/lane/h]:
0 1 2 3 4 5 6 7
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Design diagrams for road infrastructure elements: High capacity roads July 2009
Figure 417: Design diagram for weekly profile 3, annual profile 1, share of heavy goods vehi-cles 0%, cross section capacity 2000 [veh/lane/h]:
0 1 2 3 4 5 6 7
x 104
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Average Weekday Traffic (AWT)
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Figure 418: Design diagram for weekly profile 3, annual profile 2, share of heavy goods vehi-cles 0%, cross section capacity 2000 [veh/lane/h]:
0 1 2 3 4 5 6 7
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Design diagrams for road infrastructure elements: High capacity roads July 2009
Figure 419: Design diagram for weekly profile 3, annual profile 3, share of heavy goods vehi-cles 0%, cross section capacity 2000 [veh/lane/h]:
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x 104
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Average Weekday Traffic (AWT)
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Figure 420: Design diagram for weekly profile 3, annual profile 4, share of heavy goods vehi-cles 0%, cross section capacity 2000 [veh/lane/h]:
0 1 2 3 4 5 6 7
x 104
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Design diagrams for road infrastructure elements: High capacity roads July 2009
Figure 421: Design diagram for weekly profile 3, annual profile 5, share of heavy goods vehi-cles 0%, cross section capacity 2000 [veh/lane/h]:
0 1 2 3 4 5 6 7
x 104
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Average Weekday Traffic (AWT)
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Figure 422: Design diagram for weekly profile 4, annual profile 1, share of heavy goods vehi-cles 0%, cross section capacity 2000 [veh/lane/h]:
0 1 2 3 4 5 6 7
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Design diagrams for road infrastructure elements: High capacity roads July 2009
Figure 423: Design diagram for weekly profile 4, annual profile 2, share of heavy goods vehi-cles 0%, cross section capacity 2000 [veh/lane/h]:
0 1 2 3 4 5 6 7
x 104
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Average Weekday Traffic (AWT)
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Figure 424: Design diagram for weekly profile 4, annual profile 3, share of heavy goods vehi-cles 0%, cross section capacity 2000 [veh/lane/h]:
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Design diagrams for road infrastructure elements: High capacity roads July 2009
Figure 425: Design diagram for weekly profile 4, annual profile 4, share of heavy goods vehi-cles 0%, cross section capacity 2000 [veh/lane/h]:
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Figure 426: Design diagram for weekly profile 4, annual profile 5, share of heavy goods vehi-cles 0%, cross section capacity 2000 [veh/lane/h]:
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Design diagrams for road infrastructure elements: High capacity roads July 2009
Figure 427: Design diagram for weekly profile 5, annual profile 1, share of heavy goods vehi-cles 0%, cross section capacity 2000 [veh/lane/h]:
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Figure 428: Design diagram for weekly profile 5, annual profile 2, share of heavy goods vehi-cles 0%, cross section capacity 2000 [veh/lane/h]:
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Design diagrams for road infrastructure elements: High capacity roads July 2009
Figure 429: Design diagram for weekly profile 5, annual profile 3, share of heavy goods vehi-cles 0%, cross section capacity 2000 [veh/lane/h]:
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Figure 430: Design diagram for weekly profile 5, annual profile 4, share of heavy goods vehi-cles 0%, cross section capacity 2000 [veh/lane/h]:
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Design diagrams for road infrastructure elements: High capacity roads July 2009
Figure 431: Design diagram for weekly profile 5, annual profile 5, share of heavy goods vehi-cles 0%, cross section capacity 2000 [veh/lane/h]:
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Figure 432: Design diagram for weekly profile 6, annual profile 1, share of heavy goods vehi-cles 0%, cross section capacity 2000 [veh/lane/h]:
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Design diagrams for road infrastructure elements: High capacity roads July 2009
Figure 433: Design diagram for weekly profile 6, annual profile 2, share of heavy goods vehi-cles 0%, cross section capacity 2000 [veh/lane/h]:
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Figure 434: Design diagram for weekly profile 6, annual profile 3, share of heavy goods vehi-cles 0%, cross section capacity 2000 [veh/lane/h]:
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Design diagrams for road infrastructure elements: High capacity roads July 2009
Figure 435: Design diagram for weekly profile 6, annual profile 4, share of heavy goods vehi-cles 0%, cross section capacity 2000 [veh/lane/h]:
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Figure 436: Design diagram for weekly profile 6, annual profile 5, share of heavy goods vehi-cles 0%, cross section capacity 2000 [veh/lane/h]:
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Design diagrams for road infrastructure elements: High capacity roads July 2009
Figure 437: Design diagram for weekly profile 7, annual profile 1, share of heavy goods vehi-cles 0%, cross section capacity 2000 [veh/lane/h]:
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Figure 438: Design diagram for weekly profile 7, annual profile 2, share of heavy goods vehi-cles 0%, cross section capacity 2000 [veh/lane/h]:
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Design diagrams for road infrastructure elements: High capacity roads July 2009
Figure 439: Design diagram for weekly profile 7, annual profile 3, share of heavy goods vehi-cles 0%, cross section capacity 2000 [veh/lane/h]:
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Figure 440: Design diagram for weekly profile 7, annual profile 4, share of heavy goods vehi-cles 0%, cross section capacity 2000 [veh/lane/h]:
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Design diagrams for road infrastructure elements: High capacity roads July 2009
Figure 441: Design diagram for weekly profile 7, annual profile 5, share of heavy goods vehi-cles 0%, cross section capacity 2000 [veh/lane/h]:
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Design diagrams for road infrastructure elements: High capacity roads July 2009
11.8 Cross section capacity: 2000 [veh/lane/h] and share of heavy goodsvehicles: 5 – 15%
Figure 442: Design diagram for weekly profile 1, annual profile 1, share of heavy goods vehi-cles 5%, cross section capacity 2000 [veh/lane/h]:
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Figure 443: Design diagram for weekly profile 1, annual profile 2, share of heavy goods vehi-cles 5%, cross section capacity 2000 [veh/lane/h]:
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Design diagrams for road infrastructure elements: High capacity roads July 2009
Figure 444: Design diagram for weekly profile 1, annual profile 3, share of heavy goods vehi-cles 5%, cross section capacity 2000 [veh/lane/h]:
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Figure 445: Design diagram for weekly profile 1, annual profile 4, share of heavy goods vehi-cles 5%, cross section capacity 2000 [veh/lane/h]:
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Design diagrams for road infrastructure elements: High capacity roads July 2009
Figure 446: Design diagram for weekly profile 1, annual profile 5, share of heavy goods vehi-cles 5%, cross section capacity 2000 [veh/lane/h]:
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Figure 447: Design diagram for weekly profile 2, annual profile 1, share of heavy goods vehi-cles 5%, cross section capacity 2000 [veh/lane/h]:
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Design diagrams for road infrastructure elements: High capacity roads July 2009
Figure 448: Design diagram for weekly profile 2, annual profile 2, share of heavy goods vehi-cles 5%, cross section capacity 2000 [veh/lane/h]:
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Figure 449: Design diagram for weekly profile 2, annual profile 3, share of heavy goods vehi-cles 5%, cross section capacity 2000 [veh/lane/h]:
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Design diagrams for road infrastructure elements: High capacity roads July 2009
Figure 450: Design diagram for weekly profile 2, annual profile 4, share of heavy goods vehi-cles 5%, cross section capacity 2000 [veh/lane/h]:
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Figure 451: Design diagram for weekly profile 2, annual profile 5, share of heavy goods vehi-cles 5%, cross section capacity 2000 [veh/lane/h]:
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Design diagrams for road infrastructure elements: High capacity roads July 2009
Figure 452: Design diagram for weekly profile 3, annual profile 1, share of heavy goods vehi-cles 5%, cross section capacity 2000 [veh/lane/h]:
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Figure 453: Design diagram for weekly profile 3, annual profile 2, share of heavy goods vehi-cles 5%, cross section capacity 2000 [veh/lane/h]:
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Design diagrams for road infrastructure elements: High capacity roads July 2009
Figure 454: Design diagram for weekly profile 3, annual profile 3, share of heavy goods vehi-cles 5%, cross section capacity 2000 [veh/lane/h]:
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Figure 455: Design diagram for weekly profile 3, annual profile 4, share of heavy goods vehi-cles 5%, cross section capacity 2000 [veh/lane/h]:
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Design diagrams for road infrastructure elements: High capacity roads July 2009
Figure 456: Design diagram for weekly profile 3, annual profile 5, share of heavy goods vehi-cles 5%, cross section capacity 2000 [veh/lane/h]:
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Figure 457: Design diagram for weekly profile 4, annual profile 1, share of heavy goods vehi-cles 5%, cross section capacity 2000 [veh/lane/h]:
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Design diagrams for road infrastructure elements: High capacity roads July 2009
Figure 458: Design diagram for weekly profile 4, annual profile 2, share of heavy goods vehi-cles 5%, cross section capacity 2000 [veh/lane/h]:
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Figure 459: Design diagram for weekly profile 4, annual profile 3, share of heavy goods vehi-cles 5%, cross section capacity 2000 [veh/lane/h]:
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Design diagrams for road infrastructure elements: High capacity roads July 2009
Figure 460: Design diagram for weekly profile 4, annual profile 4, share of heavy goods vehi-cles 5%, cross section capacity 2000 [veh/lane/h]:
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Figure 461: Design diagram for weekly profile 4, annual profile 5, share of heavy goods vehi-cles 5%, cross section capacity 2000 [veh/lane/h]:
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Design diagrams for road infrastructure elements: High capacity roads July 2009
Figure 462: Design diagram for weekly profile 5, annual profile 1, share of heavy goods vehi-cles 5%, cross section capacity 2000 [veh/lane/h]:
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Figure 463: Design diagram for weekly profile 5, annual profile 2, share of heavy goods vehi-cles 5%, cross section capacity 2000 [veh/lane/h]:
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Design diagrams for road infrastructure elements: High capacity roads July 2009
Figure 464: Design diagram for weekly profile 5, annual profile 3, share of heavy goods vehi-cles 5%, cross section capacity 2000 [veh/lane/h]:
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Figure 465: Design diagram for weekly profile 5, annual profile 4, share of heavy goods vehi-cles 5%, cross section capacity 2000 [veh/lane/h]:
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Design diagrams for road infrastructure elements: High capacity roads July 2009
Figure 466: Design diagram for weekly profile 5, annual profile 5, share of heavy goods vehi-cles 5%, cross section capacity 2000 [veh/lane/h]:
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Figure 467: Design diagram for weekly profile 6, annual profile 1, share of heavy goods vehi-cles 5%, cross section capacity 2000 [veh/lane/h]:
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Design diagrams for road infrastructure elements: High capacity roads July 2009
Figure 468: Design diagram for weekly profile 6, annual profile 2, share of heavy goods vehi-cles 5%, cross section capacity 2000 [veh/lane/h]:
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Figure 469: Design diagram for weekly profile 6, annual profile 3, share of heavy goods vehi-cles 5%, cross section capacity 2000 [veh/lane/h]:
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Design diagrams for road infrastructure elements: High capacity roads July 2009
Figure 470: Design diagram for weekly profile 6, annual profile 4, share of heavy goods vehi-cles 5%, cross section capacity 2000 [veh/lane/h]:
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Figure 471: Design diagram for weekly profile 6, annual profile 5, share of heavy goods vehi-cles 5%, cross section capacity 2000 [veh/lane/h]:
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Design diagrams for road infrastructure elements: High capacity roads July 2009
Figure 472: Design diagram for weekly profile 7, annual profile 1, share of heavy goods vehi-cles 5%, cross section capacity 2000 [veh/lane/h]:
0 1 2 3 4 5 6 7
x 104
105
106
107
Average Weekday Traffic (AWT)
Annu
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2Lane 100kmph3Lane 100kmph2Lane 120kmph3Lane 120kmph
Figure 473: Design diagram for weekly profile 7, annual profile 2, share of heavy goods vehi-cles 5%, cross section capacity 2000 [veh/lane/h]:
0 1 2 3 4 5 6 7
x 104
105
106
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Average Weekday Traffic (AWT)
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Design diagrams for road infrastructure elements: High capacity roads July 2009
Figure 474: Design diagram for weekly profile 7, annual profile 3, share of heavy goods vehi-cles 5%, cross section capacity 2000 [veh/lane/h]:
0 1 2 3 4 5 6 7
x 104
105
106
107
Average Weekday Traffic (AWT)
Annu
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Figure 475: Design diagram for weekly profile 7, annual profile 4, share of heavy goods vehi-cles 5%, cross section capacity 2000 [veh/lane/h]:
0 1 2 3 4 5 6 7
x 104
105
106
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Design diagrams for road infrastructure elements: High capacity roads July 2009
Figure 476: Design diagram for weekly profile 7, annual profile 5, share of heavy goods vehi-cles 5%, cross section capacity 2000 [veh/lane/h]:
0 1 2 3 4 5 6 7
x 104
105
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Design diagrams for road infrastructure elements: High capacity roads July 2009
11.9 Cross section capacity: 2000 [veh/lane/h] and share of heavy goodsvehicles: 15 – 25%
Figure 477: Design diagram for weekly profile 1, annual profile 1, share of heavy goods vehi-cles 15%, cross section capacity 2000 [veh/lane/h]:
0 1 2 3 4 5 6 7
x 104
105
106
107
Average Weekday Traffic (AWT)
Annu
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ost (
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km)
2Lane 100kmph3Lane 100kmph2Lane 120kmph3Lane 120kmph
Figure 478: Design diagram for weekly profile 1, annual profile 2, share of heavy goods vehi-cles 15%, cross section capacity 2000 [veh/lane/h]:
0 1 2 3 4 5 6 7
x 104
105
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Average Weekday Traffic (AWT)
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Design diagrams for road infrastructure elements: High capacity roads July 2009
Figure 479: Design diagram for weekly profile 1, annual profile 3, share of heavy goods vehi-cles 15%, cross section capacity 2000 [veh/lane/h]:
0 1 2 3 4 5 6 7
x 104
105
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Average Weekday Traffic (AWT)
Annu
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Figure 480: Design diagram for weekly profile 1, annual profile 4, share of heavy goods vehi-cles 15%, cross section capacity 2000 [veh/lane/h]:
0 1 2 3 4 5 6 7
x 104
105
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Design diagrams for road infrastructure elements: High capacity roads July 2009
Figure 481: Design diagram for weekly profile 1, annual profile 5, share of heavy goods vehi-cles 15%, cross section capacity 2000 [veh/lane/h]:
0 1 2 3 4 5 6 7
x 104
105
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Average Weekday Traffic (AWT)
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Figure 482: Design diagram for weekly profile 2, annual profile 1, share of heavy goods vehi-cles 15%, cross section capacity 2000 [veh/lane/h]:
0 1 2 3 4 5 6 7
x 104
105
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Design diagrams for road infrastructure elements: High capacity roads July 2009
Figure 483: Design diagram for weekly profile 2, annual profile 2, share of heavy goods vehi-cles 15%, cross section capacity 2000 [veh/lane/h]:
0 1 2 3 4 5 6 7
x 104
105
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Average Weekday Traffic (AWT)
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Figure 484: Design diagram for weekly profile 2, annual profile 3, share of heavy goods vehi-cles 15%, cross section capacity 2000 [veh/lane/h]:
0 1 2 3 4 5 6 7
x 104
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Design diagrams for road infrastructure elements: High capacity roads July 2009
Figure 485: Design diagram for weekly profile 2, annual profile 4, share of heavy goods vehi-cles 15%, cross section capacity 2000 [veh/lane/h]:
0 1 2 3 4 5 6 7
x 104
105
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Average Weekday Traffic (AWT)
Annu
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Figure 486: Design diagram for weekly profile 2, annual profile 5, share of heavy goods vehi-cles 15%, cross section capacity 2000 [veh/lane/h]:
0 1 2 3 4 5 6 7
x 104
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Design diagrams for road infrastructure elements: High capacity roads July 2009
Figure 487: Design diagram for weekly profile 3, annual profile 1, share of heavy goods vehi-cles 15%, cross section capacity 2000 [veh/lane/h]:
0 1 2 3 4 5 6 7
x 104
105
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Average Weekday Traffic (AWT)
Annu
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Figure 488: Design diagram for weekly profile 3, annual profile 2, share of heavy goods vehi-cles 15%, cross section capacity 2000 [veh/lane/h]:
0 1 2 3 4 5 6 7
x 104
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Average Weekday Traffic (AWT)
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Design diagrams for road infrastructure elements: High capacity roads July 2009
Figure 489: Design diagram for weekly profile 3, annual profile 3, share of heavy goods vehi-cles 15%, cross section capacity 2000 [veh/lane/h]:
0 1 2 3 4 5 6 7
x 104
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Average Weekday Traffic (AWT)
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Figure 490: Design diagram for weekly profile 3, annual profile 4, share of heavy goods vehi-cles 15%, cross section capacity 2000 [veh/lane/h]:
0 1 2 3 4 5 6 7
x 104
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Design diagrams for road infrastructure elements: High capacity roads July 2009
Figure 491: Design diagram for weekly profile 3, annual profile 5, share of heavy goods vehi-cles 15%, cross section capacity 2000 [veh/lane/h]:
0 1 2 3 4 5 6 7
x 104
105
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Average Weekday Traffic (AWT)
Annu
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Figure 492: Design diagram for weekly profile 4, annual profile 1, share of heavy goods vehi-cles 15%, cross section capacity 2000 [veh/lane/h]:
0 1 2 3 4 5 6 7
x 104
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Design diagrams for road infrastructure elements: High capacity roads July 2009
Figure 493: Design diagram for weekly profile 4, annual profile 2, share of heavy goods vehi-cles 15%, cross section capacity 2000 [veh/lane/h]:
0 1 2 3 4 5 6 7
x 104
105
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Average Weekday Traffic (AWT)
Annu
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Figure 494: Design diagram for weekly profile 4, annual profile 3, share of heavy goods vehi-cles 15%, cross section capacity 2000 [veh/lane/h]:
0 1 2 3 4 5 6 7
x 104
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Design diagrams for road infrastructure elements: High capacity roads July 2009
Figure 495: Design diagram for weekly profile 4, annual profile 4, share of heavy goods vehi-cles 15%, cross section capacity 2000 [veh/lane/h]:
0 1 2 3 4 5 6 7
x 104
105
106
107
Average Weekday Traffic (AWT)
Annu
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2Lane 100kmph3Lane 100kmph2Lane 120kmph3Lane 120kmph
Figure 496: Design diagram for weekly profile 4, annual profile 5, share of heavy goods vehi-cles 15%, cross section capacity 2000 [veh/lane/h]:
0 1 2 3 4 5 6 7
x 104
105
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Design diagrams for road infrastructure elements: High capacity roads July 2009
Figure 497: Design diagram for weekly profile 5, annual profile 1, share of heavy goods vehi-cles 15%, cross section capacity 2000 [veh/lane/h]:
0 1 2 3 4 5 6 7
x 104
105
106
107
Average Weekday Traffic (AWT)
Annu
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Figure 498: Design diagram for weekly profile 5, annual profile 2, share of heavy goods vehi-cles 15%, cross section capacity 2000 [veh/lane/h]:
0 1 2 3 4 5 6 7
x 104
105
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Design diagrams for road infrastructure elements: High capacity roads July 2009
Figure 499: Design diagram for weekly profile 5, annual profile 3, share of heavy goods vehi-cles 15%, cross section capacity 2000 [veh/lane/h]:
0 1 2 3 4 5 6 7
x 104
105
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Average Weekday Traffic (AWT)
Annu
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Figure 500: Design diagram for weekly profile 5, annual profile 4, share of heavy goods vehi-cles 15%, cross section capacity 2000 [veh/lane/h]:
0 1 2 3 4 5 6 7
x 104
105
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Average Weekday Traffic (AWT)
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Design diagrams for road infrastructure elements: High capacity roads July 2009
Figure 501: Design diagram for weekly profile 5, annual profile 5, share of heavy goods vehi-cles 15%, cross section capacity 2000 [veh/lane/h]:
0 1 2 3 4 5 6 7
x 104
105
106
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Average Weekday Traffic (AWT)
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Figure 502: Design diagram for weekly profile 6, annual profile 1, share of heavy goods vehi-cles 15%, cross section capacity 2000 [veh/lane/h]:
0 1 2 3 4 5 6 7
x 104
105
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Average Weekday Traffic (AWT)
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Design diagrams for road infrastructure elements: High capacity roads July 2009
Figure 503: Design diagram for weekly profile 6, annual profile 2, share of heavy goods vehi-cles 15%, cross section capacity 2000 [veh/lane/h]:
0 1 2 3 4 5 6 7
x 104
105
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Average Weekday Traffic (AWT)
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Figure 504: Design diagram for weekly profile 6, annual profile 3, share of heavy goods vehi-cles 15%, cross section capacity 2000 [veh/lane/h]:
0 1 2 3 4 5 6 7
x 104
105
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Average Weekday Traffic (AWT)
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Design diagrams for road infrastructure elements: High capacity roads July 2009
Figure 505: Design diagram for weekly profile 6, annual profile 4, share of heavy goods vehi-cles 15%, cross section capacity 2000 [veh/lane/h]:
0 1 2 3 4 5 6 7
x 104
105
106
107
Average Weekday Traffic (AWT)
Annu
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Figure 506: Design diagram for weekly profile 6, annual profile 5, share of heavy goods vehi-cles 15%, cross section capacity 2000 [veh/lane/h]:
0 1 2 3 4 5 6 7
x 104
105
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Average Weekday Traffic (AWT)
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Design diagrams for road infrastructure elements: High capacity roads July 2009
Figure 507: Design diagram for weekly profile 7, annual profile 1, share of heavy goods vehi-cles 15%, cross section capacity 2000 [veh/lane/h]:
0 1 2 3 4 5 6 7
x 104
105
106
107
Average Weekday Traffic (AWT)
Annu
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2Lane 100kmph3Lane 100kmph2Lane 120kmph3Lane 120kmph
Figure 508: Design diagram for weekly profile 7, annual profile 2, share of heavy goods vehi-cles 15%, cross section capacity 2000 [veh/lane/h]:
0 1 2 3 4 5 6 7
x 104
105
106
107
Average Weekday Traffic (AWT)
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Design diagrams for road infrastructure elements: High capacity roads July 2009
Figure 509: Design diagram for weekly profile 7, annual profile 3, share of heavy goods vehi-cles 15%, cross section capacity 2000 [veh/lane/h]:
0 1 2 3 4 5 6 7
x 104
105
106
107
Average Weekday Traffic (AWT)
Annu
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2Lane 100kmph3Lane 100kmph2Lane 120kmph3Lane 120kmph
Figure 510: Design diagram for weekly profile 7, annual profile 4, share of heavy goods vehi-cles 15%, cross section capacity 2000 [veh/lane/h]:
0 1 2 3 4 5 6 7
x 104
105
106
107
Average Weekday Traffic (AWT)
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Design diagrams for road infrastructure elements: High capacity roads July 2009
Figure 511: Design diagram for weekly profile 7, annual profile 5, share of heavy goods vehi-cles 15%, cross section capacity 2000 [veh/lane/h]:
0 1 2 3 4 5 6 7
x 104
105
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Average Weekday Traffic (AWT)
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Design diagrams for road infrastructure elements: High capacity roads July 2009
11.10 Cross section capacity: 2250 [veh/lane/h] and share of heavy goodsvehicles: 0 – 5%
Figure 512: Design diagram for weekly profile 1, annual profile 1, share of heavy goods vehi-cles 0%, cross section capacity 2250 [veh/lane/h]:
0 1 2 3 4 5 6 7
x 104
105
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Average Weekday Traffic (AWT)
Annu
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Figure 513: Design diagram for weekly profile 1, annual profile 2, share of heavy goods vehi-cles 0%, cross section capacity 2250 [veh/lane/h]:
0 1 2 3 4 5 6 7
x 104
105
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Design diagrams for road infrastructure elements: High capacity roads July 2009
Figure 514: Design diagram for weekly profile 1, annual profile 3, share of heavy goods vehi-cles 0%, cross section capacity 2250 [veh/lane/h]:
0 1 2 3 4 5 6 7
x 104
105
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107
Average Weekday Traffic (AWT)
Annu
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Figure 515: Design diagram for weekly profile 1, annual profile 4, share of heavy goods vehi-cles 0%, cross section capacity 2250 [veh/lane/h]:
0 1 2 3 4 5 6 7
x 104
105
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Design diagrams for road infrastructure elements: High capacity roads July 2009
Figure 516: Design diagram for weekly profile 1, annual profile 5, share of heavy goods vehi-cles 0%, cross section capacity 2250 [veh/lane/h]:
0 1 2 3 4 5 6 7
x 104
105
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Average Weekday Traffic (AWT)
Annu
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Figure 517: Design diagram for weekly profile 2, annual profile 1, share of heavy goods vehi-cles 0%, cross section capacity 2250 [veh/lane/h]:
0 1 2 3 4 5 6 7
x 104
105
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Average Weekday Traffic (AWT)
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Design diagrams for road infrastructure elements: High capacity roads July 2009
Figure 518: Design diagram for weekly profile 2, annual profile 2, share of heavy goods vehi-cles 0%, cross section capacity 2250 [veh/lane/h]:
0 1 2 3 4 5 6 7
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Figure 519: Design diagram for weekly profile 2, annual profile 3, share of heavy goods vehi-cles 0%, cross section capacity 2250 [veh/lane/h]:
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Design diagrams for road infrastructure elements: High capacity roads July 2009
Figure 520: Design diagram for weekly profile 2, annual profile 4, share of heavy goods vehi-cles 0%, cross section capacity 2250 [veh/lane/h]:
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Figure 521: Design diagram for weekly profile 2, annual profile 5, share of heavy goods vehi-cles 0%, cross section capacity 2250 [veh/lane/h]:
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Design diagrams for road infrastructure elements: High capacity roads July 2009
Figure 522: Design diagram for weekly profile 3, annual profile 1, share of heavy goods vehi-cles 0%, cross section capacity 2250 [veh/lane/h]:
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Figure 523: Design diagram for weekly profile 3, annual profile 2, share of heavy goods vehi-cles 0%, cross section capacity 2250 [veh/lane/h]:
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Design diagrams for road infrastructure elements: High capacity roads July 2009
Figure 524: Design diagram for weekly profile 3, annual profile 3, share of heavy goods vehi-cles 0%, cross section capacity 2250 [veh/lane/h]:
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Figure 525: Design diagram for weekly profile 3, annual profile 4, share of heavy goods vehi-cles 0%, cross section capacity 2250 [veh/lane/h]:
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Design diagrams for road infrastructure elements: High capacity roads July 2009
Figure 526: Design diagram for weekly profile 3, annual profile 5, share of heavy goods vehi-cles 0%, cross section capacity 2250 [veh/lane/h]:
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Figure 527: Design diagram for weekly profile 4, annual profile 1, share of heavy goods vehi-cles 0%, cross section capacity 2250 [veh/lane/h]:
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Design diagrams for road infrastructure elements: High capacity roads July 2009
Figure 528: Design diagram for weekly profile 4, annual profile 2, share of heavy goods vehi-cles 0%, cross section capacity 2250 [veh/lane/h]:
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Figure 529: Design diagram for weekly profile 4, annual profile 3, share of heavy goods vehi-cles 0%, cross section capacity 2250 [veh/lane/h]:
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Design diagrams for road infrastructure elements: High capacity roads July 2009
Figure 530: Design diagram for weekly profile 4, annual profile 4, share of heavy goods vehi-cles 0%, cross section capacity 2250 [veh/lane/h]:
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Figure 531: Design diagram for weekly profile 4, annual profile 5, share of heavy goods vehi-cles 0%, cross section capacity 2250 [veh/lane/h]:
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Design diagrams for road infrastructure elements: High capacity roads July 2009
Figure 532: Design diagram for weekly profile 5, annual profile 1, share of heavy goods vehi-cles 0%, cross section capacity 2250 [veh/lane/h]:
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Figure 533: Design diagram for weekly profile 5, annual profile 2, share of heavy goods vehi-cles 0%, cross section capacity 2250 [veh/lane/h]:
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Design diagrams for road infrastructure elements: High capacity roads July 2009
Figure 534: Design diagram for weekly profile 5, annual profile 3, share of heavy goods vehi-cles 0%, cross section capacity 2250 [veh/lane/h]:
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Figure 535: Design diagram for weekly profile 5, annual profile 4, share of heavy goods vehi-cles 0%, cross section capacity 2250 [veh/lane/h]:
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Design diagrams for road infrastructure elements: High capacity roads July 2009
Figure 536: Design diagram for weekly profile 5, annual profile 5, share of heavy goods vehi-cles 0%, cross section capacity 2250 [veh/lane/h]:
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Figure 537: Design diagram for weekly profile 6, annual profile 1, share of heavy goods vehi-cles 0%, cross section capacity 2250 [veh/lane/h]:
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Design diagrams for road infrastructure elements: High capacity roads July 2009
Figure 538: Design diagram for weekly profile 6, annual profile 2, share of heavy goods vehi-cles 0%, cross section capacity 2250 [veh/lane/h]:
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Figure 539: Design diagram for weekly profile 6, annual profile 3, share of heavy goods vehi-cles 0%, cross section capacity 2250 [veh/lane/h]:
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Design diagrams for road infrastructure elements: High capacity roads July 2009
Figure 540: Design diagram for weekly profile 6, annual profile 4, share of heavy goods vehi-cles 0%, cross section capacity 2250 [veh/lane/h]:
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Figure 541: Design diagram for weekly profile 6, annual profile 5, share of heavy goods vehi-cles 0%, cross section capacity 2250 [veh/lane/h]:
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Design diagrams for road infrastructure elements: High capacity roads July 2009
Figure 542: Design diagram for weekly profile 7, annual profile 1, share of heavy goods vehi-cles 0%, cross section capacity 2250 [veh/lane/h]:
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Figure 543: Design diagram for weekly profile 7, annual profile 2, share of heavy goods vehi-cles 0%, cross section capacity 2250 [veh/lane/h]:
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Design diagrams for road infrastructure elements: High capacity roads July 2009
Figure 544: Design diagram for weekly profile 7, annual profile 3, share of heavy goods vehi-cles 0%, cross section capacity 2250 [veh/lane/h]:
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Figure 545: Design diagram for weekly profile 7, annual profile 4, share of heavy goods vehi-cles 0%, cross section capacity 2250 [veh/lane/h]:
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Design diagrams for road infrastructure elements: High capacity roads July 2009
Figure 546: Design diagram for weekly profile 7, annual profile 5, share of heavy goods vehi-cles 0%, cross section capacity 2250 [veh/lane/h]:
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Design diagrams for road infrastructure elements: High capacity roads July 2009
11.11 Cross section capacity: 2250 [veh/lane/h] and share of heavy goodsvehicles: 5 – 15%
Figure 547: Design diagram for weekly profile 1, annual profile 1, share of heavy goods vehi-cles 5%, cross section capacity 2250 [veh/lane/h]:
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Figure 548: Design diagram for weekly profile 1, annual profile 2, share of heavy goods vehi-cles 5%, cross section capacity 2250 [veh/lane/h]:
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Design diagrams for road infrastructure elements: High capacity roads July 2009
Figure 549: Design diagram for weekly profile 1, annual profile 3, share of heavy goods vehi-cles 5%, cross section capacity 2250 [veh/lane/h]:
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Figure 550: Design diagram for weekly profile 1, annual profile 4, share of heavy goods vehi-cles 5%, cross section capacity 2250 [veh/lane/h]:
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Design diagrams for road infrastructure elements: High capacity roads July 2009
Figure 551: Design diagram for weekly profile 1, annual profile 5, share of heavy goods vehi-cles 5%, cross section capacity 2250 [veh/lane/h]:
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Figure 552: Design diagram for weekly profile 2, annual profile 1, share of heavy goods vehi-cles 5%, cross section capacity 2250 [veh/lane/h]:
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Design diagrams for road infrastructure elements: High capacity roads July 2009
Figure 553: Design diagram for weekly profile 2, annual profile 2, share of heavy goods vehi-cles 5%, cross section capacity 2250 [veh/lane/h]:
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Figure 554: Design diagram for weekly profile 2, annual profile 3, share of heavy goods vehi-cles 5%, cross section capacity 2250 [veh/lane/h]:
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Design diagrams for road infrastructure elements: High capacity roads July 2009
Figure 555: Design diagram for weekly profile 2, annual profile 4, share of heavy goods vehi-cles 5%, cross section capacity 2250 [veh/lane/h]:
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Figure 556: Design diagram for weekly profile 2, annual profile 5, share of heavy goods vehi-cles 5%, cross section capacity 2250 [veh/lane/h]:
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Design diagrams for road infrastructure elements: High capacity roads July 2009
Figure 557: Design diagram for weekly profile 3, annual profile 1, share of heavy goods vehi-cles 5%, cross section capacity 2250 [veh/lane/h]:
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Figure 558: Design diagram for weekly profile 3, annual profile 2, share of heavy goods vehi-cles 5%, cross section capacity 2250 [veh/lane/h]:
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Design diagrams for road infrastructure elements: High capacity roads July 2009
Figure 559: Design diagram for weekly profile 3, annual profile 3, share of heavy goods vehi-cles 5%, cross section capacity 2250 [veh/lane/h]:
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Figure 560: Design diagram for weekly profile 3, annual profile 4, share of heavy goods vehi-cles 5%, cross section capacity 2250 [veh/lane/h]:
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Design diagrams for road infrastructure elements: High capacity roads July 2009
Figure 561: Design diagram for weekly profile 3, annual profile 5, share of heavy goods vehi-cles 5%, cross section capacity 2250 [veh/lane/h]:
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Figure 562: Design diagram for weekly profile 4, annual profile 1, share of heavy goods vehi-cles 5%, cross section capacity 2250 [veh/lane/h]:
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Design diagrams for road infrastructure elements: High capacity roads July 2009
Figure 563: Design diagram for weekly profile 4, annual profile 2, share of heavy goods vehi-cles 5%, cross section capacity 2250 [veh/lane/h]:
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Figure 564: Design diagram for weekly profile 4, annual profile 3, share of heavy goods vehi-cles 5%, cross section capacity 2250 [veh/lane/h]:
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Design diagrams for road infrastructure elements: High capacity roads July 2009
Figure 565: Design diagram for weekly profile 4, annual profile 4, share of heavy goods vehi-cles 5%, cross section capacity 2250 [veh/lane/h]:
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Figure 566: Design diagram for weekly profile 4, annual profile 5, share of heavy goods vehi-cles 5%, cross section capacity 2250 [veh/lane/h]:
0 1 2 3 4 5 6 7
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Design diagrams for road infrastructure elements: High capacity roads July 2009
Figure 567: Design diagram for weekly profile 5, annual profile 1, share of heavy goods vehi-cles 5%, cross section capacity 2250 [veh/lane/h]:
0 1 2 3 4 5 6 7
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Average Weekday Traffic (AWT)
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Figure 568: Design diagram for weekly profile 5, annual profile 2, share of heavy goods vehi-cles 5%, cross section capacity 2250 [veh/lane/h]:
0 1 2 3 4 5 6 7
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Design diagrams for road infrastructure elements: High capacity roads July 2009
Figure 569: Design diagram for weekly profile 5, annual profile 3, share of heavy goods vehi-cles 5%, cross section capacity 2250 [veh/lane/h]:
0 1 2 3 4 5 6 7
x 104
105
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Average Weekday Traffic (AWT)
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Figure 570: Design diagram for weekly profile 5, annual profile 4, share of heavy goods vehi-cles 5%, cross section capacity 2250 [veh/lane/h]:
0 1 2 3 4 5 6 7
x 104
105
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Average Weekday Traffic (AWT)
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Design diagrams for road infrastructure elements: High capacity roads July 2009
Figure 571: Design diagram for weekly profile 5, annual profile 5, share of heavy goods vehi-cles 5%, cross section capacity 2250 [veh/lane/h]:
0 1 2 3 4 5 6 7
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Average Weekday Traffic (AWT)
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Figure 572: Design diagram for weekly profile 6, annual profile 1, share of heavy goods vehi-cles 5%, cross section capacity 2250 [veh/lane/h]:
0 1 2 3 4 5 6 7
x 104
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Average Weekday Traffic (AWT)
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Design diagrams for road infrastructure elements: High capacity roads July 2009
Figure 573: Design diagram for weekly profile 6, annual profile 2, share of heavy goods vehi-cles 5%, cross section capacity 2250 [veh/lane/h]:
0 1 2 3 4 5 6 7
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Average Weekday Traffic (AWT)
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Figure 574: Design diagram for weekly profile 6, annual profile 3, share of heavy goods vehi-cles 5%, cross section capacity 2250 [veh/lane/h]:
0 1 2 3 4 5 6 7
x 104
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Design diagrams for road infrastructure elements: High capacity roads July 2009
Figure 575: Design diagram for weekly profile 6, annual profile 4, share of heavy goods vehi-cles 5%, cross section capacity 2250 [veh/lane/h]:
0 1 2 3 4 5 6 7
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Average Weekday Traffic (AWT)
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Figure 576: Design diagram for weekly profile 6, annual profile 5, share of heavy goods vehi-cles 5%, cross section capacity 2250 [veh/lane/h]:
0 1 2 3 4 5 6 7
x 104
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Design diagrams for road infrastructure elements: High capacity roads July 2009
Figure 577: Design diagram for weekly profile 7, annual profile 1, share of heavy goods vehi-cles 5%, cross section capacity 2250 [veh/lane/h]:
0 1 2 3 4 5 6 7
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105
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Average Weekday Traffic (AWT)
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2Lane 100kmph3Lane 100kmph2Lane 120kmph3Lane 120kmph
Figure 578: Design diagram for weekly profile 7, annual profile 2, share of heavy goods vehi-cles 5%, cross section capacity 2250 [veh/lane/h]:
0 1 2 3 4 5 6 7
x 104
105
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Design diagrams for road infrastructure elements: High capacity roads July 2009
Figure 579: Design diagram for weekly profile 7, annual profile 3, share of heavy goods vehi-cles 5%, cross section capacity 2250 [veh/lane/h]:
0 1 2 3 4 5 6 7
x 104
105
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Average Weekday Traffic (AWT)
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Figure 580: Design diagram for weekly profile 7, annual profile 4, share of heavy goods vehi-cles 5%, cross section capacity 2250 [veh/lane/h]:
0 1 2 3 4 5 6 7
x 104
105
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Design diagrams for road infrastructure elements: High capacity roads July 2009
Figure 581: Design diagram for weekly profile 7, annual profile 5, share of heavy goods vehi-cles 5%, cross section capacity 2250 [veh/lane/h]:
0 1 2 3 4 5 6 7
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Average Weekday Traffic (AWT)
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Design diagrams for road infrastructure elements: High capacity roads July 2009
11.12 Cross section capacity: 2250 [veh/lane/h] and share of heavy goodsvehicles: 15 – 25%
Figure 582: Design diagram for weekly profile 1, annual profile 1, share of heavy goods vehi-cles 15%, cross section capacity 2250 [veh/lane/h]:
0 1 2 3 4 5 6 7
x 104
105
106
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Average Weekday Traffic (AWT)
Annu
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CHF/
km)
2Lane 100kmph3Lane 100kmph2Lane 120kmph3Lane 120kmph
Figure 583: Design diagram for weekly profile 1, annual profile 2, share of heavy goods vehi-cles 15%, cross section capacity 2250 [veh/lane/h]:
0 1 2 3 4 5 6 7
x 104
105
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Average Weekday Traffic (AWT)
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Design diagrams for road infrastructure elements: High capacity roads July 2009
Figure 584: Design diagram for weekly profile 1, annual profile 3, share of heavy goods vehi-cles 15%, cross section capacity 2250 [veh/lane/h]:
0 1 2 3 4 5 6 7
x 104
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Average Weekday Traffic (AWT)
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Figure 585: Design diagram for weekly profile 1, annual profile 4, share of heavy goods vehi-cles 15%, cross section capacity 2250 [veh/lane/h]:
0 1 2 3 4 5 6 7
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Design diagrams for road infrastructure elements: High capacity roads July 2009
Figure 586: Design diagram for weekly profile 1, annual profile 5, share of heavy goods vehi-cles 15%, cross section capacity 2250 [veh/lane/h]:
0 1 2 3 4 5 6 7
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Average Weekday Traffic (AWT)
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Figure 587: Design diagram for weekly profile 2, annual profile 1, share of heavy goods vehi-cles 15%, cross section capacity 2250 [veh/lane/h]:
0 1 2 3 4 5 6 7
x 104
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Design diagrams for road infrastructure elements: High capacity roads July 2009
Figure 588: Design diagram for weekly profile 2, annual profile 2, share of heavy goods vehi-cles 15%, cross section capacity 2250 [veh/lane/h]:
0 1 2 3 4 5 6 7
x 104
105
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Average Weekday Traffic (AWT)
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Figure 589: Design diagram for weekly profile 2, annual profile 3, share of heavy goods vehi-cles 15%, cross section capacity 2250 [veh/lane/h]:
0 1 2 3 4 5 6 7
x 104
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Design diagrams for road infrastructure elements: High capacity roads July 2009
Figure 590: Design diagram for weekly profile 2, annual profile 4, share of heavy goods vehi-cles 15%, cross section capacity 2250 [veh/lane/h]:
0 1 2 3 4 5 6 7
x 104
105
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Average Weekday Traffic (AWT)
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Figure 591: Design diagram for weekly profile 2, annual profile 5, share of heavy goods vehi-cles 15%, cross section capacity 2250 [veh/lane/h]:
0 1 2 3 4 5 6 7
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Design diagrams for road infrastructure elements: High capacity roads July 2009
Figure 592: Design diagram for weekly profile 3, annual profile 1, share of heavy goods vehi-cles 15%, cross section capacity 2250 [veh/lane/h]:
0 1 2 3 4 5 6 7
x 104
105
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Average Weekday Traffic (AWT)
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Figure 593: Design diagram for weekly profile 3, annual profile 2, share of heavy goods vehi-cles 15%, cross section capacity 2250 [veh/lane/h]:
0 1 2 3 4 5 6 7
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Design diagrams for road infrastructure elements: High capacity roads July 2009
Figure 594: Design diagram for weekly profile 3, annual profile 3, share of heavy goods vehi-cles 15%, cross section capacity 2250 [veh/lane/h]:
0 1 2 3 4 5 6 7
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Average Weekday Traffic (AWT)
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Figure 595: Design diagram for weekly profile 3, annual profile 4, share of heavy goods vehi-cles 15%, cross section capacity 2250 [veh/lane/h]:
0 1 2 3 4 5 6 7
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Design diagrams for road infrastructure elements: High capacity roads July 2009
Figure 596: Design diagram for weekly profile 3, annual profile 5, share of heavy goods vehi-cles 15%, cross section capacity 2250 [veh/lane/h]:
0 1 2 3 4 5 6 7
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105
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Average Weekday Traffic (AWT)
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Figure 597: Design diagram for weekly profile 4, annual profile 1, share of heavy goods vehi-cles 15%, cross section capacity 2250 [veh/lane/h]:
0 1 2 3 4 5 6 7
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Design diagrams for road infrastructure elements: High capacity roads July 2009
Figure 598: Design diagram for weekly profile 4, annual profile 2, share of heavy goods vehi-cles 15%, cross section capacity 2250 [veh/lane/h]:
0 1 2 3 4 5 6 7
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105
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Average Weekday Traffic (AWT)
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Figure 599: Design diagram for weekly profile 4, annual profile 3, share of heavy goods vehi-cles 15%, cross section capacity 2250 [veh/lane/h]:
0 1 2 3 4 5 6 7
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105
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Design diagrams for road infrastructure elements: High capacity roads July 2009
Figure 600: Design diagram for weekly profile 4, annual profile 4, share of heavy goods vehi-cles 15%, cross section capacity 2250 [veh/lane/h]:
0 1 2 3 4 5 6 7
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105
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Average Weekday Traffic (AWT)
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Figure 601: Design diagram for weekly profile 4, annual profile 5, share of heavy goods vehi-cles 15%, cross section capacity 2250 [veh/lane/h]:
0 1 2 3 4 5 6 7
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Design diagrams for road infrastructure elements: High capacity roads July 2009
Figure 602: Design diagram for weekly profile 5, annual profile 1, share of heavy goods vehi-cles 15%, cross section capacity 2250 [veh/lane/h]:
0 1 2 3 4 5 6 7
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Average Weekday Traffic (AWT)
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Figure 603: Design diagram for weekly profile 5, annual profile 2, share of heavy goods vehi-cles 15%, cross section capacity 2250 [veh/lane/h]:
0 1 2 3 4 5 6 7
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Design diagrams for road infrastructure elements: High capacity roads July 2009
Figure 604: Design diagram for weekly profile 5, annual profile 3, share of heavy goods vehi-cles 15%, cross section capacity 2250 [veh/lane/h]:
0 1 2 3 4 5 6 7
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Figure 605: Design diagram for weekly profile 5, annual profile 4, share of heavy goods vehi-cles 15%, cross section capacity 2250 [veh/lane/h]:
0 1 2 3 4 5 6 7
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Design diagrams for road infrastructure elements: High capacity roads July 2009
Figure 606: Design diagram for weekly profile 5, annual profile 5, share of heavy goods vehi-cles 15%, cross section capacity 2250 [veh/lane/h]:
0 1 2 3 4 5 6 7
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Average Weekday Traffic (AWT)
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Figure 607: Design diagram for weekly profile 6, annual profile 1, share of heavy goods vehi-cles 15%, cross section capacity 2250 [veh/lane/h]:
0 1 2 3 4 5 6 7
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Design diagrams for road infrastructure elements: High capacity roads July 2009
Figure 608: Design diagram for weekly profile 6, annual profile 2, share of heavy goods vehi-cles 15%, cross section capacity 2250 [veh/lane/h]:
0 1 2 3 4 5 6 7
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Figure 609: Design diagram for weekly profile 6, annual profile 3, share of heavy goods vehi-cles 15%, cross section capacity 2250 [veh/lane/h]:
0 1 2 3 4 5 6 7
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Design diagrams for road infrastructure elements: High capacity roads July 2009
Figure 610: Design diagram for weekly profile 6, annual profile 4, share of heavy goods vehi-cles 15%, cross section capacity 2250 [veh/lane/h]:
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Figure 611: Design diagram for weekly profile 6, annual profile 5, share of heavy goods vehi-cles 15%, cross section capacity 2250 [veh/lane/h]:
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Design diagrams for road infrastructure elements: High capacity roads July 2009
Figure 612: Design diagram for weekly profile 7, annual profile 1, share of heavy goods vehi-cles 15%, cross section capacity 2250 [veh/lane/h]:
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2Lane 100kmph3Lane 100kmph2Lane 120kmph3Lane 120kmph
Figure 613: Design diagram for weekly profile 7, annual profile 2, share of heavy goods vehi-cles 15%, cross section capacity 2250 [veh/lane/h]:
0 1 2 3 4 5 6 7
x 104
105
106
107
Average Weekday Traffic (AWT)
Annu
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339
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Design diagrams for road infrastructure elements: High capacity roads July 2009
Figure 614: Design diagram for weekly profile 7, annual profile 3, share of heavy goods vehi-cles 15%, cross section capacity 2250 [veh/lane/h]:
0 1 2 3 4 5 6 7
x 104
105
106
107
Average Weekday Traffic (AWT)
Annu
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ost (
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)
2Lane 100kmph3Lane 100kmph2Lane 120kmph3Lane 120kmph
Figure 615: Design diagram for weekly profile 7, annual profile 4, share of heavy goods vehi-cles 15%, cross section capacity 2250 [veh/lane/h]:
0 1 2 3 4 5 6 7
x 104
105
106
107
Average Weekday Traffic (AWT)
Annu
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F/km
)
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340
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Design diagrams for road infrastructure elements: High capacity roads July 2009
Figure 616: Design diagram for weekly profile 7, annual profile 5, share of heavy goods vehi-cles 15%, cross section capacity 2250 [veh/lane/h]:
0 1 2 3 4 5 6 7
x 104
105
106
107
Average Weekday Traffic (AWT)
Annu
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Design diagrams for road infrastructure elements: High capacity roads July 2009
11.13 Cross section capacity: 2500 [veh/lane/h] and share of heavy goodsvehicles: 0 – 5%
Figure 617: Design diagram for weekly profile 1, annual profile 1, share of heavy goods vehi-cles 0%, cross section capacity 2500 [veh/lane/h]:
0 1 2 3 4 5 6 7
x 104
105
106
107
Average Weekday Traffic (AWT)
Annu
al C
ost (
CHF/
km)
2Lane 100kmph3Lane 100kmph2Lane 120kmph3Lane 120kmph
Figure 618: Design diagram for weekly profile 1, annual profile 2, share of heavy goods vehi-cles 0%, cross section capacity 2500 [veh/lane/h]:
0 1 2 3 4 5 6 7
x 104
105
106
107
Average Weekday Traffic (AWT)
Annu
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km)
2Lane 100kmph3Lane 100kmph2Lane 120kmph3Lane 120kmph
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Design diagrams for road infrastructure elements: High capacity roads July 2009
Figure 619: Design diagram for weekly profile 1, annual profile 3, share of heavy goods vehi-cles 0%, cross section capacity 2500 [veh/lane/h]:
0 1 2 3 4 5 6 7
x 104
105
106
107
Average Weekday Traffic (AWT)
Annu
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ost (
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F/km
)
2Lane 100kmph3Lane 100kmph2Lane 120kmph3Lane 120kmph
Figure 620: Design diagram for weekly profile 1, annual profile 4, share of heavy goods vehi-cles 0%, cross section capacity 2500 [veh/lane/h]:
0 1 2 3 4 5 6 7
x 104
105
106
107
Average Weekday Traffic (AWT)
Annu
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F/km
)
2Lane 100kmph3Lane 100kmph2Lane 120kmph3Lane 120kmph
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Design diagrams for road infrastructure elements: High capacity roads July 2009
Figure 621: Design diagram for weekly profile 1, annual profile 5, share of heavy goods vehi-cles 0%, cross section capacity 2500 [veh/lane/h]:
0 1 2 3 4 5 6 7
x 104
105
106
107
Average Weekday Traffic (AWT)
Annu
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ost (
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F/km
)
2Lane 100kmph3Lane 100kmph2Lane 120kmph3Lane 120kmph
Figure 622: Design diagram for weekly profile 2, annual profile 1, share of heavy goods vehi-cles 0%, cross section capacity 2500 [veh/lane/h]:
0 1 2 3 4 5 6 7
x 104
105
106
107
Average Weekday Traffic (AWT)
Annu
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F/km
)
2Lane 100kmph3Lane 100kmph2Lane 120kmph3Lane 120kmph
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Design diagrams for road infrastructure elements: High capacity roads July 2009
Figure 623: Design diagram for weekly profile 2, annual profile 2, share of heavy goods vehi-cles 0%, cross section capacity 2500 [veh/lane/h]:
0 1 2 3 4 5 6 7
x 104
105
106
107
Average Weekday Traffic (AWT)
Annu
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ost (
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F/km
)
2Lane 100kmph3Lane 100kmph2Lane 120kmph3Lane 120kmph
Figure 624: Design diagram for weekly profile 2, annual profile 3, share of heavy goods vehi-cles 0%, cross section capacity 2500 [veh/lane/h]:
0 1 2 3 4 5 6 7
x 104
105
106
107
Average Weekday Traffic (AWT)
Annu
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F/km
)
2Lane 100kmph3Lane 100kmph2Lane 120kmph3Lane 120kmph
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Design diagrams for road infrastructure elements: High capacity roads July 2009
Figure 625: Design diagram for weekly profile 2, annual profile 4, share of heavy goods vehi-cles 0%, cross section capacity 2500 [veh/lane/h]:
0 1 2 3 4 5 6 7
x 104
105
106
107
Average Weekday Traffic (AWT)
Annu
al C
ost (
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F/km
)
2Lane 100kmph3Lane 100kmph2Lane 120kmph3Lane 120kmph
Figure 626: Design diagram for weekly profile 2, annual profile 5, share of heavy goods vehi-cles 0%, cross section capacity 2500 [veh/lane/h]:
0 1 2 3 4 5 6 7
x 104
105
106
107
Average Weekday Traffic (AWT)
Annu
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F/km
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Design diagrams for road infrastructure elements: High capacity roads July 2009
Figure 627: Design diagram for weekly profile 3, annual profile 1, share of heavy goods vehi-cles 0%, cross section capacity 2500 [veh/lane/h]:
0 1 2 3 4 5 6 7
x 104
105
106
107
Average Weekday Traffic (AWT)
Annu
al C
ost (
CH
F/km
)
2Lane 100kmph3Lane 100kmph2Lane 120kmph3Lane 120kmph
Figure 628: Design diagram for weekly profile 3, annual profile 2, share of heavy goods vehi-cles 0%, cross section capacity 2500 [veh/lane/h]:
0 1 2 3 4 5 6 7
x 104
105
106
107
Average Weekday Traffic (AWT)
Annu
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F/km
)
2Lane 100kmph3Lane 100kmph2Lane 120kmph3Lane 120kmph
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Design diagrams for road infrastructure elements: High capacity roads July 2009
Figure 629: Design diagram for weekly profile 3, annual profile 3, share of heavy goods vehi-cles 0%, cross section capacity 2500 [veh/lane/h]:
0 1 2 3 4 5 6 7
x 104
105
106
107
Average Weekday Traffic (AWT)
Annu
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ost (
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F/km
)
2Lane 100kmph3Lane 100kmph2Lane 120kmph3Lane 120kmph
Figure 630: Design diagram for weekly profile 3, annual profile 4, share of heavy goods vehi-cles 0%, cross section capacity 2500 [veh/lane/h]:
0 1 2 3 4 5 6 7
x 104
105
106
107
Average Weekday Traffic (AWT)
Annu
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F/km
)
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348
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Design diagrams for road infrastructure elements: High capacity roads July 2009
Figure 631: Design diagram for weekly profile 3, annual profile 5, share of heavy goods vehi-cles 0%, cross section capacity 2500 [veh/lane/h]:
0 1 2 3 4 5 6 7
x 104
105
106
107
Average Weekday Traffic (AWT)
Annu
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ost (
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F/km
)
2Lane 100kmph3Lane 100kmph2Lane 120kmph3Lane 120kmph
Figure 632: Design diagram for weekly profile 4, annual profile 1, share of heavy goods vehi-cles 0%, cross section capacity 2500 [veh/lane/h]:
0 1 2 3 4 5 6 7
x 104
105
106
107
Average Weekday Traffic (AWT)
Annu
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F/km
)
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349
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Design diagrams for road infrastructure elements: High capacity roads July 2009
Figure 633: Design diagram for weekly profile 4, annual profile 2, share of heavy goods vehi-cles 0%, cross section capacity 2500 [veh/lane/h]:
0 1 2 3 4 5 6 7
x 104
105
106
107
Average Weekday Traffic (AWT)
Annu
al C
ost (
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F/km
)
2Lane 100kmph3Lane 100kmph2Lane 120kmph3Lane 120kmph
Figure 634: Design diagram for weekly profile 4, annual profile 3, share of heavy goods vehi-cles 0%, cross section capacity 2500 [veh/lane/h]:
0 1 2 3 4 5 6 7
x 104
105
106
107
Average Weekday Traffic (AWT)
Annu
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F/km
)
2Lane 100kmph3Lane 100kmph2Lane 120kmph3Lane 120kmph
350
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Design diagrams for road infrastructure elements: High capacity roads July 2009
Figure 635: Design diagram for weekly profile 4, annual profile 4, share of heavy goods vehi-cles 0%, cross section capacity 2500 [veh/lane/h]:
0 1 2 3 4 5 6 7
x 104
105
106
107
Average Weekday Traffic (AWT)
Annu
al C
ost (
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F/km
)
2Lane 100kmph3Lane 100kmph2Lane 120kmph3Lane 120kmph
Figure 636: Design diagram for weekly profile 4, annual profile 5, share of heavy goods vehi-cles 0%, cross section capacity 2500 [veh/lane/h]:
0 1 2 3 4 5 6 7
x 104
105
106
107
Average Weekday Traffic (AWT)
Annu
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F/km
)
2Lane 100kmph3Lane 100kmph2Lane 120kmph3Lane 120kmph
351
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Design diagrams for road infrastructure elements: High capacity roads July 2009
Figure 637: Design diagram for weekly profile 5, annual profile 1, share of heavy goods vehi-cles 0%, cross section capacity 2500 [veh/lane/h]:
0 1 2 3 4 5 6 7
x 104
105
106
107
Average Weekday Traffic (AWT)
Annu
al C
ost (
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F/km
)
2Lane 100kmph3Lane 100kmph2Lane 120kmph3Lane 120kmph
Figure 638: Design diagram for weekly profile 5, annual profile 2, share of heavy goods vehi-cles 0%, cross section capacity 2500 [veh/lane/h]:
0 1 2 3 4 5 6 7
x 104
105
106
107
Average Weekday Traffic (AWT)
Annu
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F/km
)
2Lane 100kmph3Lane 100kmph2Lane 120kmph3Lane 120kmph
352
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Design diagrams for road infrastructure elements: High capacity roads July 2009
Figure 639: Design diagram for weekly profile 5, annual profile 3, share of heavy goods vehi-cles 0%, cross section capacity 2500 [veh/lane/h]:
0 1 2 3 4 5 6 7
x 104
105
106
107
Average Weekday Traffic (AWT)
Annu
al C
ost (
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F/km
)
2Lane 100kmph3Lane 100kmph2Lane 120kmph3Lane 120kmph
Figure 640: Design diagram for weekly profile 5, annual profile 4, share of heavy goods vehi-cles 0%, cross section capacity 2500 [veh/lane/h]:
0 1 2 3 4 5 6 7
x 104
105
106
107
Average Weekday Traffic (AWT)
Annu
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F/km
)
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Design diagrams for road infrastructure elements: High capacity roads July 2009
Figure 641: Design diagram for weekly profile 5, annual profile 5, share of heavy goods vehi-cles 0%, cross section capacity 2500 [veh/lane/h]:
0 1 2 3 4 5 6 7
x 104
105
106
107
Average Weekday Traffic (AWT)
Annu
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ost (
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F/km
)
2Lane 100kmph3Lane 100kmph2Lane 120kmph3Lane 120kmph
Figure 642: Design diagram for weekly profile 6, annual profile 1, share of heavy goods vehi-cles 0%, cross section capacity 2500 [veh/lane/h]:
0 1 2 3 4 5 6 7
x 104
105
106
107
Average Weekday Traffic (AWT)
Annu
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F/km
)
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Design diagrams for road infrastructure elements: High capacity roads July 2009
Figure 643: Design diagram for weekly profile 6, annual profile 2, share of heavy goods vehi-cles 0%, cross section capacity 2500 [veh/lane/h]:
0 1 2 3 4 5 6 7
x 104
105
106
107
Average Weekday Traffic (AWT)
Annu
al C
ost (
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F/km
)
2Lane 100kmph3Lane 100kmph2Lane 120kmph3Lane 120kmph
Figure 644: Design diagram for weekly profile 6, annual profile 3, share of heavy goods vehi-cles 0%, cross section capacity 2500 [veh/lane/h]:
0 1 2 3 4 5 6 7
x 104
105
106
107
Average Weekday Traffic (AWT)
Annu
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F/km
)
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Design diagrams for road infrastructure elements: High capacity roads July 2009
Figure 645: Design diagram for weekly profile 6, annual profile 4, share of heavy goods vehi-cles 0%, cross section capacity 2500 [veh/lane/h]:
0 1 2 3 4 5 6 7
x 104
105
106
107
Average Weekday Traffic (AWT)
Annu
al C
ost (
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F/km
)
2Lane 100kmph3Lane 100kmph2Lane 120kmph3Lane 120kmph
Figure 646: Design diagram for weekly profile 6, annual profile 5, share of heavy goods vehi-cles 0%, cross section capacity 2500 [veh/lane/h]:
0 1 2 3 4 5 6 7
x 104
105
106
107
Average Weekday Traffic (AWT)
Annu
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F/km
)
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Design diagrams for road infrastructure elements: High capacity roads July 2009
Figure 647: Design diagram for weekly profile 7, annual profile 1, share of heavy goods vehi-cles 0%, cross section capacity 2500 [veh/lane/h]:
0 1 2 3 4 5 6 7
x 104
105
106
107
Average Weekday Traffic (AWT)
Annu
al C
ost (
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F/km
)
2Lane 100kmph3Lane 100kmph2Lane 120kmph3Lane 120kmph
Figure 648: Design diagram for weekly profile 7, annual profile 2, share of heavy goods vehi-cles 0%, cross section capacity 2500 [veh/lane/h]:
0 1 2 3 4 5 6 7
x 104
105
106
107
Average Weekday Traffic (AWT)
Annu
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F/km
)
2Lane 100kmph3Lane 100kmph2Lane 120kmph3Lane 120kmph
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Design diagrams for road infrastructure elements: High capacity roads July 2009
Figure 649: Design diagram for weekly profile 7, annual profile 3, share of heavy goods vehi-cles 0%, cross section capacity 2500 [veh/lane/h]:
0 1 2 3 4 5 6 7
x 104
105
106
107
Average Weekday Traffic (AWT)
Annu
al C
ost (
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F/km
)
2Lane 100kmph3Lane 100kmph2Lane 120kmph3Lane 120kmph
Figure 650: Design diagram for weekly profile 7, annual profile 4, share of heavy goods vehi-cles 0%, cross section capacity 2500 [veh/lane/h]:
0 1 2 3 4 5 6 7
x 104
105
106
107
Average Weekday Traffic (AWT)
Annu
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F/km
)
2Lane 100kmph3Lane 100kmph2Lane 120kmph3Lane 120kmph
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Design diagrams for road infrastructure elements: High capacity roads July 2009
Figure 651: Design diagram for weekly profile 7, annual profile 5, share of heavy goods vehi-cles 0%, cross section capacity 2500 [veh/lane/h]:
0 1 2 3 4 5 6 7
x 104
105
106
107
Average Weekday Traffic (AWT)
Annu
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F/km
)
2Lane 100kmph3Lane 100kmph2Lane 120kmph3Lane 120kmph
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Design diagrams for road infrastructure elements: High capacity roads July 2009
11.14 Cross section capacity: 2500 [veh/lane/h] and share of heavy goodsvehicles: 5 – 15%
Figure 652: Design diagram for weekly profile 1, annual profile 1, share of heavy goods vehi-cles 5%, cross section capacity 2500 [veh/lane/h]:
0 1 2 3 4 5 6 7
x 104
105
106
107
Average Weekday Traffic (AWT)
Annu
al C
ost (
CHF/
km)
2Lane 100kmph3Lane 100kmph2Lane 120kmph3Lane 120kmph
Figure 653: Design diagram for weekly profile 1, annual profile 2, share of heavy goods vehi-cles 5%, cross section capacity 2500 [veh/lane/h]:
0 1 2 3 4 5 6 7
x 104
105
106
107
Average Weekday Traffic (AWT)
Annu
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km)
2Lane 100kmph3Lane 100kmph2Lane 120kmph3Lane 120kmph
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Design diagrams for road infrastructure elements: High capacity roads July 2009
Figure 654: Design diagram for weekly profile 1, annual profile 3, share of heavy goods vehi-cles 5%, cross section capacity 2500 [veh/lane/h]:
0 1 2 3 4 5 6 7
x 104
105
106
107
Average Weekday Traffic (AWT)
Annu
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ost (
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F/km
)
2Lane 100kmph3Lane 100kmph2Lane 120kmph3Lane 120kmph
Figure 655: Design diagram for weekly profile 1, annual profile 4, share of heavy goods vehi-cles 5%, cross section capacity 2500 [veh/lane/h]:
0 1 2 3 4 5 6 7
x 104
105
106
107
Average Weekday Traffic (AWT)
Annu
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)
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Design diagrams for road infrastructure elements: High capacity roads July 2009
Figure 656: Design diagram for weekly profile 1, annual profile 5, share of heavy goods vehi-cles 5%, cross section capacity 2500 [veh/lane/h]:
0 1 2 3 4 5 6 7
x 104
105
106
107
Average Weekday Traffic (AWT)
Annu
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)
2Lane 100kmph3Lane 100kmph2Lane 120kmph3Lane 120kmph
Figure 657: Design diagram for weekly profile 2, annual profile 1, share of heavy goods vehi-cles 5%, cross section capacity 2500 [veh/lane/h]:
0 1 2 3 4 5 6 7
x 104
105
106
107
Average Weekday Traffic (AWT)
Annu
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)
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Design diagrams for road infrastructure elements: High capacity roads July 2009
Figure 658: Design diagram for weekly profile 2, annual profile 2, share of heavy goods vehi-cles 5%, cross section capacity 2500 [veh/lane/h]:
0 1 2 3 4 5 6 7
x 104
105
106
107
Average Weekday Traffic (AWT)
Annu
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)
2Lane 100kmph3Lane 100kmph2Lane 120kmph3Lane 120kmph
Figure 659: Design diagram for weekly profile 2, annual profile 3, share of heavy goods vehi-cles 5%, cross section capacity 2500 [veh/lane/h]:
0 1 2 3 4 5 6 7
x 104
105
106
107
Average Weekday Traffic (AWT)
Annu
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)
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Design diagrams for road infrastructure elements: High capacity roads July 2009
Figure 660: Design diagram for weekly profile 2, annual profile 4, share of heavy goods vehi-cles 5%, cross section capacity 2500 [veh/lane/h]:
0 1 2 3 4 5 6 7
x 104
105
106
107
Average Weekday Traffic (AWT)
Annu
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Figure 661: Design diagram for weekly profile 2, annual profile 5, share of heavy goods vehi-cles 5%, cross section capacity 2500 [veh/lane/h]:
0 1 2 3 4 5 6 7
x 104
105
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Average Weekday Traffic (AWT)
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Design diagrams for road infrastructure elements: High capacity roads July 2009
Figure 662: Design diagram for weekly profile 3, annual profile 1, share of heavy goods vehi-cles 5%, cross section capacity 2500 [veh/lane/h]:
0 1 2 3 4 5 6 7
x 104
105
106
107
Average Weekday Traffic (AWT)
Annu
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Figure 663: Design diagram for weekly profile 3, annual profile 2, share of heavy goods vehi-cles 5%, cross section capacity 2500 [veh/lane/h]:
0 1 2 3 4 5 6 7
x 104
105
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Average Weekday Traffic (AWT)
Annu
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Design diagrams for road infrastructure elements: High capacity roads July 2009
Figure 664: Design diagram for weekly profile 3, annual profile 3, share of heavy goods vehi-cles 5%, cross section capacity 2500 [veh/lane/h]:
0 1 2 3 4 5 6 7
x 104
105
106
107
Average Weekday Traffic (AWT)
Annu
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2Lane 100kmph3Lane 100kmph2Lane 120kmph3Lane 120kmph
Figure 665: Design diagram for weekly profile 3, annual profile 4, share of heavy goods vehi-cles 5%, cross section capacity 2500 [veh/lane/h]:
0 1 2 3 4 5 6 7
x 104
105
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Average Weekday Traffic (AWT)
Annu
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Design diagrams for road infrastructure elements: High capacity roads July 2009
Figure 666: Design diagram for weekly profile 3, annual profile 5, share of heavy goods vehi-cles 5%, cross section capacity 2500 [veh/lane/h]:
0 1 2 3 4 5 6 7
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105
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Average Weekday Traffic (AWT)
Annu
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Figure 667: Design diagram for weekly profile 4, annual profile 1, share of heavy goods vehi-cles 5%, cross section capacity 2500 [veh/lane/h]:
0 1 2 3 4 5 6 7
x 104
105
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Average Weekday Traffic (AWT)
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Design diagrams for road infrastructure elements: High capacity roads July 2009
Figure 668: Design diagram for weekly profile 4, annual profile 2, share of heavy goods vehi-cles 5%, cross section capacity 2500 [veh/lane/h]:
0 1 2 3 4 5 6 7
x 104
105
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Average Weekday Traffic (AWT)
Annu
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Figure 669: Design diagram for weekly profile 4, annual profile 3, share of heavy goods vehi-cles 5%, cross section capacity 2500 [veh/lane/h]:
0 1 2 3 4 5 6 7
x 104
105
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Average Weekday Traffic (AWT)
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Design diagrams for road infrastructure elements: High capacity roads July 2009
Figure 670: Design diagram for weekly profile 4, annual profile 4, share of heavy goods vehi-cles 5%, cross section capacity 2500 [veh/lane/h]:
0 1 2 3 4 5 6 7
x 104
105
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Average Weekday Traffic (AWT)
Annu
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2Lane 100kmph3Lane 100kmph2Lane 120kmph3Lane 120kmph
Figure 671: Design diagram for weekly profile 4, annual profile 5, share of heavy goods vehi-cles 5%, cross section capacity 2500 [veh/lane/h]:
0 1 2 3 4 5 6 7
x 104
105
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Average Weekday Traffic (AWT)
Annu
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369
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Design diagrams for road infrastructure elements: High capacity roads July 2009
Figure 672: Design diagram for weekly profile 5, annual profile 1, share of heavy goods vehi-cles 5%, cross section capacity 2500 [veh/lane/h]:
0 1 2 3 4 5 6 7
x 104
105
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107
Average Weekday Traffic (AWT)
Annu
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2Lane 100kmph3Lane 100kmph2Lane 120kmph3Lane 120kmph
Figure 673: Design diagram for weekly profile 5, annual profile 2, share of heavy goods vehi-cles 5%, cross section capacity 2500 [veh/lane/h]:
0 1 2 3 4 5 6 7
x 104
105
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Average Weekday Traffic (AWT)
Annu
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Design diagrams for road infrastructure elements: High capacity roads July 2009
Figure 674: Design diagram for weekly profile 5, annual profile 3, share of heavy goods vehi-cles 5%, cross section capacity 2500 [veh/lane/h]:
0 1 2 3 4 5 6 7
x 104
105
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107
Average Weekday Traffic (AWT)
Annu
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2Lane 100kmph3Lane 100kmph2Lane 120kmph3Lane 120kmph
Figure 675: Design diagram for weekly profile 5, annual profile 4, share of heavy goods vehi-cles 5%, cross section capacity 2500 [veh/lane/h]:
0 1 2 3 4 5 6 7
x 104
105
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107
Average Weekday Traffic (AWT)
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Design diagrams for road infrastructure elements: High capacity roads July 2009
Figure 676: Design diagram for weekly profile 5, annual profile 5, share of heavy goods vehi-cles 5%, cross section capacity 2500 [veh/lane/h]:
0 1 2 3 4 5 6 7
x 104
105
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Average Weekday Traffic (AWT)
Annu
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2Lane 100kmph3Lane 100kmph2Lane 120kmph3Lane 120kmph
Figure 677: Design diagram for weekly profile 6, annual profile 1, share of heavy goods vehi-cles 5%, cross section capacity 2500 [veh/lane/h]:
0 1 2 3 4 5 6 7
x 104
105
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Average Weekday Traffic (AWT)
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Design diagrams for road infrastructure elements: High capacity roads July 2009
Figure 678: Design diagram for weekly profile 6, annual profile 2, share of heavy goods vehi-cles 5%, cross section capacity 2500 [veh/lane/h]:
0 1 2 3 4 5 6 7
x 104
105
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Average Weekday Traffic (AWT)
Annu
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2Lane 100kmph3Lane 100kmph2Lane 120kmph3Lane 120kmph
Figure 679: Design diagram for weekly profile 6, annual profile 3, share of heavy goods vehi-cles 5%, cross section capacity 2500 [veh/lane/h]:
0 1 2 3 4 5 6 7
x 104
105
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Average Weekday Traffic (AWT)
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Design diagrams for road infrastructure elements: High capacity roads July 2009
Figure 680: Design diagram for weekly profile 6, annual profile 4, share of heavy goods vehi-cles 5%, cross section capacity 2500 [veh/lane/h]:
0 1 2 3 4 5 6 7
x 104
105
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Average Weekday Traffic (AWT)
Annu
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ost (
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2Lane 100kmph3Lane 100kmph2Lane 120kmph3Lane 120kmph
Figure 681: Design diagram for weekly profile 6, annual profile 5, share of heavy goods vehi-cles 5%, cross section capacity 2500 [veh/lane/h]:
0 1 2 3 4 5 6 7
x 104
105
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Average Weekday Traffic (AWT)
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Design diagrams for road infrastructure elements: High capacity roads July 2009
Figure 682: Design diagram for weekly profile 7, annual profile 1, share of heavy goods vehi-cles 5%, cross section capacity 2500 [veh/lane/h]:
0 1 2 3 4 5 6 7
x 104
105
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107
Average Weekday Traffic (AWT)
Annu
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ost (
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2Lane 100kmph3Lane 100kmph2Lane 120kmph3Lane 120kmph
Figure 683: Design diagram for weekly profile 7, annual profile 2, share of heavy goods vehi-cles 5%, cross section capacity 2500 [veh/lane/h]:
0 1 2 3 4 5 6 7
x 104
105
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107
Average Weekday Traffic (AWT)
Annu
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Design diagrams for road infrastructure elements: High capacity roads July 2009
Figure 684: Design diagram for weekly profile 7, annual profile 3, share of heavy goods vehi-cles 5%, cross section capacity 2500 [veh/lane/h]:
0 1 2 3 4 5 6 7
x 104
105
106
107
Average Weekday Traffic (AWT)
Annu
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ost (
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2Lane 100kmph3Lane 100kmph2Lane 120kmph3Lane 120kmph
Figure 685: Design diagram for weekly profile 7, annual profile 4, share of heavy goods vehi-cles 5%, cross section capacity 2500 [veh/lane/h]:
0 1 2 3 4 5 6 7
x 104
105
106
107
Average Weekday Traffic (AWT)
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Design diagrams for road infrastructure elements: High capacity roads July 2009
Figure 686: Design diagram for weekly profile 7, annual profile 5, share of heavy goods vehi-cles 5%, cross section capacity 2500 [veh/lane/h]:
0 1 2 3 4 5 6 7
x 104
105
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Average Weekday Traffic (AWT)
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Design diagrams for road infrastructure elements: High capacity roads July 2009
11.15 Cross section capacity: 2500 [veh/lane/h] and share of heavy goodsvehicles: 15 – 25%
Figure 687: Design diagram for weekly profile 1, annual profile 1, share of heavy goods vehi-cles 15%, cross section capacity 2500 [veh/lane/h]:
0 1 2 3 4 5 6 7
x 104
105
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107
Average Weekday Traffic (AWT)
Annu
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ost (
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km)
2Lane 100kmph3Lane 100kmph2Lane 120kmph3Lane 120kmph
Figure 688: Design diagram for weekly profile 1, annual profile 2, share of heavy goods vehi-cles 15%, cross section capacity 2500 [veh/lane/h]:
0 1 2 3 4 5 6 7
x 104
105
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Average Weekday Traffic (AWT)
Annu
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km)
2Lane 100kmph3Lane 100kmph2Lane 120kmph3Lane 120kmph
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Design diagrams for road infrastructure elements: High capacity roads July 2009
Figure 689: Design diagram for weekly profile 1, annual profile 3, share of heavy goods vehi-cles 15%, cross section capacity 2500 [veh/lane/h]:
0 1 2 3 4 5 6 7
x 104
105
106
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Average Weekday Traffic (AWT)
Annu
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Figure 690: Design diagram for weekly profile 1, annual profile 4, share of heavy goods vehi-cles 15%, cross section capacity 2500 [veh/lane/h]:
0 1 2 3 4 5 6 7
x 104
105
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Average Weekday Traffic (AWT)
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Design diagrams for road infrastructure elements: High capacity roads July 2009
Figure 691: Design diagram for weekly profile 1, annual profile 5, share of heavy goods vehi-cles 15%, cross section capacity 2500 [veh/lane/h]:
0 1 2 3 4 5 6 7
x 104
105
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107
Average Weekday Traffic (AWT)
Annu
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Figure 692: Design diagram for weekly profile 2, annual profile 1, share of heavy goods vehi-cles 15%, cross section capacity 2500 [veh/lane/h]:
0 1 2 3 4 5 6 7
x 104
105
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Average Weekday Traffic (AWT)
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Design diagrams for road infrastructure elements: High capacity roads July 2009
Figure 693: Design diagram for weekly profile 2, annual profile 2, share of heavy goods vehi-cles 15%, cross section capacity 2500 [veh/lane/h]:
0 1 2 3 4 5 6 7
x 104
105
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107
Average Weekday Traffic (AWT)
Annu
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Figure 694: Design diagram for weekly profile 2, annual profile 3, share of heavy goods vehi-cles 15%, cross section capacity 2500 [veh/lane/h]:
0 1 2 3 4 5 6 7
x 104
105
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Average Weekday Traffic (AWT)
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Design diagrams for road infrastructure elements: High capacity roads July 2009
Figure 695: Design diagram for weekly profile 2, annual profile 4, share of heavy goods vehi-cles 15%, cross section capacity 2500 [veh/lane/h]:
0 1 2 3 4 5 6 7
x 104
105
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107
Average Weekday Traffic (AWT)
Annu
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Figure 696: Design diagram for weekly profile 2, annual profile 5, share of heavy goods vehi-cles 15%, cross section capacity 2500 [veh/lane/h]:
0 1 2 3 4 5 6 7
x 104
105
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Average Weekday Traffic (AWT)
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Design diagrams for road infrastructure elements: High capacity roads July 2009
Figure 697: Design diagram for weekly profile 3, annual profile 1, share of heavy goods vehi-cles 15%, cross section capacity 2500 [veh/lane/h]:
0 1 2 3 4 5 6 7
x 104
105
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107
Average Weekday Traffic (AWT)
Annu
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Figure 698: Design diagram for weekly profile 3, annual profile 2, share of heavy goods vehi-cles 15%, cross section capacity 2500 [veh/lane/h]:
0 1 2 3 4 5 6 7
x 104
105
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107
Average Weekday Traffic (AWT)
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Design diagrams for road infrastructure elements: High capacity roads July 2009
Figure 699: Design diagram for weekly profile 3, annual profile 3, share of heavy goods vehi-cles 15%, cross section capacity 2500 [veh/lane/h]:
0 1 2 3 4 5 6 7
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105
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107
Average Weekday Traffic (AWT)
Annu
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Figure 700: Design diagram for weekly profile 3, annual profile 4, share of heavy goods vehi-cles 15%, cross section capacity 2500 [veh/lane/h]:
0 1 2 3 4 5 6 7
x 104
105
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107
Average Weekday Traffic (AWT)
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Design diagrams for road infrastructure elements: High capacity roads July 2009
Figure 701: Design diagram for weekly profile 3, annual profile 5, share of heavy goods vehi-cles 15%, cross section capacity 2500 [veh/lane/h]:
0 1 2 3 4 5 6 7
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105
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107
Average Weekday Traffic (AWT)
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Figure 702: Design diagram for weekly profile 4, annual profile 1, share of heavy goods vehi-cles 15%, cross section capacity 2500 [veh/lane/h]:
0 1 2 3 4 5 6 7
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105
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Average Weekday Traffic (AWT)
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Design diagrams for road infrastructure elements: High capacity roads July 2009
Figure 703: Design diagram for weekly profile 4, annual profile 2, share of heavy goods vehi-cles 15%, cross section capacity 2500 [veh/lane/h]:
0 1 2 3 4 5 6 7
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Average Weekday Traffic (AWT)
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Figure 704: Design diagram for weekly profile 4, annual profile 3, share of heavy goods vehi-cles 15%, cross section capacity 2500 [veh/lane/h]:
0 1 2 3 4 5 6 7
x 104
105
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Average Weekday Traffic (AWT)
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Design diagrams for road infrastructure elements: High capacity roads July 2009
Figure 705: Design diagram for weekly profile 4, annual profile 4, share of heavy goods vehi-cles 15%, cross section capacity 2500 [veh/lane/h]:
0 1 2 3 4 5 6 7
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105
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107
Average Weekday Traffic (AWT)
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Figure 706: Design diagram for weekly profile 4, annual profile 5, share of heavy goods vehi-cles 15%, cross section capacity 2500 [veh/lane/h]:
0 1 2 3 4 5 6 7
x 104
105
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107
Average Weekday Traffic (AWT)
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Design diagrams for road infrastructure elements: High capacity roads July 2009
Figure 707: Design diagram for weekly profile 5, annual profile 1, share of heavy goods vehi-cles 15%, cross section capacity 2500 [veh/lane/h]:
0 1 2 3 4 5 6 7
x 104
105
106
107
Average Weekday Traffic (AWT)
Annu
al C
ost (
CH
F/km
)
2Lane 100kmph3Lane 100kmph2Lane 120kmph3Lane 120kmph
Figure 708: Design diagram for weekly profile 5, annual profile 2, share of heavy goods vehi-cles 15%, cross section capacity 2500 [veh/lane/h]:
0 1 2 3 4 5 6 7
x 104
105
106
107
Average Weekday Traffic (AWT)
Annu
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F/km
)
2Lane 100kmph3Lane 100kmph2Lane 120kmph3Lane 120kmph
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Design diagrams for road infrastructure elements: High capacity roads July 2009
Figure 709: Design diagram for weekly profile 5, annual profile 3, share of heavy goods vehi-cles 15%, cross section capacity 2500 [veh/lane/h]:
0 1 2 3 4 5 6 7
x 104
105
106
107
Average Weekday Traffic (AWT)
Annu
al C
ost (
CH
F/km
)
2Lane 100kmph3Lane 100kmph2Lane 120kmph3Lane 120kmph
Figure 710: Design diagram for weekly profile 5, annual profile 4, share of heavy goods vehi-cles 15%, cross section capacity 2500 [veh/lane/h]:
0 1 2 3 4 5 6 7
x 104
105
106
107
Average Weekday Traffic (AWT)
Annu
al C
ost (
CH
F/km
)
2Lane 100kmph3Lane 100kmph2Lane 120kmph3Lane 120kmph
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Design diagrams for road infrastructure elements: High capacity roads July 2009
Figure 711: Design diagram for weekly profile 5, annual profile 5, share of heavy goods vehi-cles 15%, cross section capacity 2500 [veh/lane/h]:
0 1 2 3 4 5 6 7
x 104
105
106
107
Average Weekday Traffic (AWT)
Annu
al C
ost (
CH
F/km
)
2Lane 100kmph3Lane 100kmph2Lane 120kmph3Lane 120kmph
Figure 712: Design diagram for weekly profile 6, annual profile 1, share of heavy goods vehi-cles 15%, cross section capacity 2500 [veh/lane/h]:
0 1 2 3 4 5 6 7
x 104
105
106
107
Average Weekday Traffic (AWT)
Annu
al C
ost (
CH
F/km
)
2Lane 100kmph3Lane 100kmph2Lane 120kmph3Lane 120kmph
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Design diagrams for road infrastructure elements: High capacity roads July 2009
Figure 713: Design diagram for weekly profile 6, annual profile 2, share of heavy goods vehi-cles 15%, cross section capacity 2500 [veh/lane/h]:
0 1 2 3 4 5 6 7
x 104
105
106
107
Average Weekday Traffic (AWT)
Annu
al C
ost (
CH
F/km
)
2Lane 100kmph3Lane 100kmph2Lane 120kmph3Lane 120kmph
Figure 714: Design diagram for weekly profile 6, annual profile 3, share of heavy goods vehi-cles 15%, cross section capacity 2500 [veh/lane/h]:
0 1 2 3 4 5 6 7
x 104
105
106
107
Average Weekday Traffic (AWT)
Annu
al C
ost (
CH
F/km
)
2Lane 100kmph3Lane 100kmph2Lane 120kmph3Lane 120kmph
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Design diagrams for road infrastructure elements: High capacity roads July 2009
Figure 715: Design diagram for weekly profile 6, annual profile 4, share of heavy goods vehi-cles 15%, cross section capacity 2500 [veh/lane/h]:
0 1 2 3 4 5 6 7
x 104
105
106
107
Average Weekday Traffic (AWT)
Annu
al C
ost (
CH
F/km
)
2Lane 100kmph3Lane 100kmph2Lane 120kmph3Lane 120kmph
Figure 716: Design diagram for weekly profile 6, annual profile 5, share of heavy goods vehi-cles 15%, cross section capacity 2500 [veh/lane/h]:
0 1 2 3 4 5 6 7
x 104
105
106
107
Average Weekday Traffic (AWT)
Annu
al C
ost (
CH
F/km
)
2Lane 100kmph3Lane 100kmph2Lane 120kmph3Lane 120kmph
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Design diagrams for road infrastructure elements: High capacity roads July 2009
Figure 717: Design diagram for weekly profile 7, annual profile 1, share of heavy goods vehi-cles 15%, cross section capacity 2500 [veh/lane/h]:
0 1 2 3 4 5 6 7
x 104
105
106
107
Average Weekday Traffic (AWT)
Annu
al C
ost (
CH
F/km
)
2Lane 100kmph3Lane 100kmph2Lane 120kmph3Lane 120kmph
Figure 718: Design diagram for weekly profile 7, annual profile 2, share of heavy goods vehi-cles 15%, cross section capacity 2500 [veh/lane/h]:
0 1 2 3 4 5 6 7
x 104
105
106
107
Average Weekday Traffic (AWT)
Annu
al C
ost (
CH
F/km
)
2Lane 100kmph3Lane 100kmph2Lane 120kmph3Lane 120kmph
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Design diagrams for road infrastructure elements: High capacity roads July 2009
Figure 719: Design diagram for weekly profile 7, annual profile 3, share of heavy goods vehi-cles 15%, cross section capacity 2500 [veh/lane/h]:
0 1 2 3 4 5 6 7
x 104
105
106
107
Average Weekday Traffic (AWT)
Annu
al C
ost (
CH
F/km
)
2Lane 100kmph3Lane 100kmph2Lane 120kmph3Lane 120kmph
Figure 720: Design diagram for weekly profile 7, annual profile 4, share of heavy goods vehi-cles 15%, cross section capacity 2500 [veh/lane/h]:
0 1 2 3 4 5 6 7
x 104
105
106
107
Average Weekday Traffic (AWT)
Annu
al C
ost (
CH
F/km
)
2Lane 100kmph3Lane 100kmph2Lane 120kmph3Lane 120kmph
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Design diagrams for road infrastructure elements: High capacity roads July 2009
Figure 721: Design diagram for weekly profile 7, annual profile 5, share of heavy goods vehi-cles 15%, cross section capacity 2500 [veh/lane/h]:
0 1 2 3 4 5 6 7
x 104
105
106
107
Average Weekday Traffic (AWT)
Annu
al C
ost (
CH
F/km
)
2Lane 100kmph3Lane 100kmph2Lane 120kmph3Lane 120kmph
395