dedus scada gis case study zagreb
TRANSCRIPT
ICEI20149TH INTERNATIONAL CONFERENCE ON ECOLOGICAL INFORMATICS
ECOLOGICAL INFORMATICS FOR ENVIRONMENTAL SUSTAINABILITY
20-24 OCTOBER 2014, NANJING, CHINA
An integrated SCADA / GIS approach to management of combined sewerage systems – preparation for a blue green solutions – case study Zagreb
Božidar Deduš (PRONING DHI, Zagreb, CROATIA)Tomislav Šijak (Naval Architecture Institute, Zagreb, CROATIA)Vesna Rogulja (PRONING DHI, Zagreb, CROATIA)
Proning DHI d.o.o.
CONTENT – CASE STUDY ZAGREB
TRADITIONAL APPROACH TO WWSS PLANNING AND OPERATION
GIS / SCADA
BLUE GREEN APPROACH
CONSLUSIONS
Proning DHI d.o.o.
Proning DHI d.o.o.
ZAGREB -CAPITAL OF CROATIA, EU
• CROATIA - 5 Mio Inhabitants• 55.000 km2 • 34.000 km2 Adriatic sea• GDP/capita < 20.000 USD
• Zagreb 1 Mio Inhabitants• 3000 km of wss• 2000 km of sewage• WWTP 1,2 (1,5) Mio PE• River Sava dividing city in 2
• I PHASE- DATA COLECTING AND EVALUATION– GIS– Monitoring campaign– Model building and calibrating– Evaluation of existing situation
• II PHASE – MASTER PLAN– Short term measures– Long term measures– RTC– Water quality modeling
• III PHASE – DESIGNING GOK (MDC) SYSTEM• IV PHASE –DETAIL DESIGNING AND CONSTRUCTION
Proning DHI d.o.o.
ZAGREB SEWER SYSTEM PROJECT
FROM MASTER PLAN TO OPERATION
(1995. – 2007.)
• V PHASE- OPERATION– Major construction works finished– WWTP in operation– Further sewerage system rehabilitation plan slowered – Climate changes effects
• VI PHASE – SCADA PROJECT– Provision of monitoring equipment (rainfall runoff) – Monitoring campaign– SCADA project
• VII PHASE – BLUE GREEN APPROACH– Water quality monitoring– Preparation for BGD
Proning DHI d.o.o.
FROM OPERATION TO CLIMATE CHANGES
FROM TRADITIONAL TO BLUE GREEN SOLUTIONS
(2007. – 2014. +)
Kanal.shp01 - 19041905 - 19241925 - 19441945 - 19641965 - 19841985 - 2004
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GIS
Kanal.shp0 - 3031 - 6061 - 120121 - 200201 - 300301 - 600
Kanal.shp-ACCalkatenbetonbetoniranibetonska cijevkamenštinaPHDPHD korugiranaPVCsalonit
I PHASE
• CATCHMENT AREA >300 Km2• 2000 km PIPES• 1.2 mil. PE
Proning DHI d.o.o.
nn Desetogodišnje serije oborina Desetogodišnje serije oborina
MY-M/S
0.000
0.200
0.400
0.600
0.800
1.000
1.200
1985 1990
REGN, OBORINE
*** BOUNDARY DATA ***
BIJENIK
Desetogodišnje serije temperaturaDesetogodišnjeDesetogodišnje serije temperatura serije temperaturann
-10.000
-5.000
-0.000
5.000
10.000
15.000
20.000
25.000
1985 1990
GRICTEMPERATURE
*** BOUNDARY DATA ***
Desetogodišnje serije evapotranspiracijeDesetogodišnje serije evapotranspiracijenn
MM
0.000
0.010
0.020
0.030
0.040
0.050
0.060
0.070
1985 1990
MAKSIMIREVAPOTRANSPIRACIJA
*** BOUNDARY DATA ***
Petogodišnje serije mjerenja protoka na GOK-u
M3/SEK
3.0
13.0
23.0
33.0
43.0
53.0
1989 1990 1991 1992 1993
PROTOCI NA GOKU
*** BOUNDARY DATA ***
HISTORICAL DATA DHMZ-
a
HISTORICAL DATA DHMZ-
a
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REZULTATI KALIBRACIJE ZA KIŠNI DOGAĐAJ 29.07.1995. - MJERENI I SIMULIRANI NIVOI I PROTOCI NA TRI LOKACIJE(CALIBRATION RESULTS FOR THE RAIN DATED 29. 07. 1995.MEASURED AND SIMULATED FLOWS AND LEVELS ON THE THREE MONITORING SITES)
REZULTATI KALIBRACIJE ZA KIŠNI DOGAĐAJ 29.07.1995. - MJERENI I SIMULIRANI NIVOI I PROTOCI NA TRI LOKACIJE(CALIBRATION RESULTS FOR THE RAIN DATED 29. 07. 1995.MEASURED AND SIMULATED FLOWS AND LEVELS ON THE THREE MONITORING SITES)
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Proning DHI d.o.o.
Flooding and pressureEXISTING SITUATION EVALUATION
0
10
20
30
40
50
60
1989
Sanitarni i indudtrijski dotok
FLOW COMPONENTS IN ZAGREB SS BASED ON LONG TERM SIMULATIONS
12%
9%
39%
40% Površinsko otjecanje
Potoci Bliznec i Vugrovec
Stanovnici
Industrija
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Proning DHI d.o.o.
II PHASE - ZAGREB SS MASTER PLAN
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SHORT TERM AND LONG TERM MEASURESExisting situation
To do nothing scenario
Short term measures result
Long term measures result
Flooding and pressure
Flooding and pressure
Flooding and pressure
Flooding and pressure
1-1-1989 20-2-1989 11-4-1989 31-5-1989 20-7-1989 8-9-1989 28-10-1989 17-12-1989
0.0
0.5
1.0
1.5
2.0
2.5
3.0
3.5
4.0
4.5
5.0
5.5
6.0
6.5
7.0
7.5
8.0
8.5
9.0
9.5
10.0
[m3/s] Time Series DISCHARGE WEIR (Rftnh489.prf) DISCHARGE WEIRSAVICA -> ZAPSAV
1-1-1989 20-2-1989 11-4-1989 31-5-1989 20-7-1989 8-9-1989 28-10-1989 17-12-1989
0.0
5.0
10.0
15.0
20.0
25.0
30.0
35.0
40.0
45.0
50.0
55.0
60.0
65.0
70.0
[m3/s] Time Series DISCHARGE WEIR (Rftnh489.prf)
OVERFLOW SAVICA 1989.y. OVERFLOW RADNIČKA 1989.y.
Proning DHI d.o.o.1-1-1995 20-2-1995 11-4-1995 31-5-1995 20-7-1995 8-9-1995 28-10-1995 17-12-1995
0.0
0.1
0.1
0.2
0.2
0.3
0.3
0.4
0.4
0.5
0.5
0.6
0.6
0.7
0.7
0.8
0.8
0.9
0.9
1.0
1.0
[m3/s] Time Series DISCHARGE WEIR (Rftbod95.prf) DISCHARGE WEIRSAVICA -> ZAPSAV
1-1-1995 20-2-1995 11-4-1995 31-5-1995 20-7-1995 8-9-1995 28-10-1995 17-12-1995
0.0
2.0
4.0
6.0
8.0
10.0
12.0
14.0
16.0
18.0
20.0
22.0
24.0
26.0
28.0
30.0
32.0
34.0
36.0
38.0
40.0
42.0
44.0
46.0
48.0
[m3/s] Time Series DISCHARGE WEIR (Rftbod95.prf) DISCHARGE WEIR8648 -> GOK-PRE
1995. y 1995. y
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Kontrolirano pumpanje
Pokretni preljevi
Pokretna zapornica
Senzori razine vode
RTC SCHEME
RTC MODELING
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Tlačno tečenje < od 2 m ispod površine terena
Tlačno tečenje
RTC FOR DESIGN EVENT 28.8.1989.
Voda na površini terena
Kontrolirano tlačno tečenje
0
2000000
4000000
6000000
8000000
10000000
12000000
14000000
16000000
1 2
VOLUMEN m3/god
VOLUMEN m3/god
0
100000
200000
300000
400000
500000
1 2
kg BPK5/god
kg BPK5/god
RTC RESULTS
STATIČKI RTCPRELJEV m3 kg BPK/god m3 kg BPK/godČRNOMEREC 1122338 11134 1058698 8220SAVICA 291950 907 381373 990RADNIČKA 13373395 390636 11872608 334088SUMA 14787683 402677 13312679 343298
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• Average number of overflow events for static system is 23 per year
• Wit RTC average number of overflow events is reduced to 8 per year
• 80% overflow volume reduction for non flooding events
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WATER QUALITY MODELING
WQ MODEL WITH MONITORING LOCATION
Flow meter
Water sampling
Rain gauge
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1-1-1995 20-2-1995 11-4-1995 31-5-1995 20-7-1995 8-9-1995 28-10-1995 17-12-1995
1.5
2.0
2.5
3.0
3.5
4.0
4.5
5.0
5.5
6.0
6.5
7.0
7.5
8.0
8.5
9.0
9.5
10.0
10.5
11.0
11.5
12.0
12.5[mg/l] Time Series CONCENTRATION IN NODES, BOD DIS, (Ft95.trf) CONCENTRATION IN NODES, BOD DIS,
673+410688+065714+886
17-8-1998 6-10-1998 25-11-1998 14-1-1999 5-3-1999 24-4-1999 13-6-1999
0.0
50.0
100.0
150.0
200.0
250.0
300.0
350.0
400.0
450.0
500.0
CONCENTRATION [m] GOK4 BOD
1-1-1995 20-2-1995 11-4-1995 31-5-1995 20-7-1995 8-9-1995 28-10-1995 17-12-1995
0.10
0.15
0.20
0.25
0.30
0.35
0.40
0.45
0.50
0.55
0.60
0.65
0.70
0.75
0.80
0.85
[mg/l] Time Series CONCENTRATION IN NODES, NH4, (Ft95.trf) CONCENTRATION IN NODES, NH4,673+410688+065714+886
17-8-1998 6-10-1998 25-11-1998 14-1-1999 5-3-1999 24-4-1999 13-6-1999
2.0
4.0
6.0
8.0
10.0
12.0
14.0
16.0
18.0
20.0
22.0
24.0
26.0
28.0
CONCENTRATION [m] GOK4 NH4
SAVA - BOD5
GOK4 -BOD5
SAVA - NH4
GOK4 - NH4
TIME SERIES
Proning DHI d.o.o.
MouseTRAP CALIBRATION RESULTS
29-8-1998 8-9-1998 18-9-1998 28-9-1998 8-10-1998
0.0
20.0
40.0
60.0
80.0
100.0
120.0
140.0
160.0
180.0
200.0
[mg/l] Time Series CONCENTRATION IN NODES, BOD, (Lnh4bod.trf) CONCENTRATION IN NODES, BOD,2508CONCENTRATION, - GOK4 24H BODCONCENTRATION, - GOK4 BOD
20-7-1998 30-7-1998 9-8-1998 19-8-1998 29-8-1998 8-9-1998 18-9-1998
2.0
4.0
6.0
8.0
10.0
12.0
14.0
[mg/l] Time Series CONCENTRATION IN NODES, NH4, (Lnh4bod.trf) CONCENTRATION IN NODES, NH4,2508CONCENTRATION, - GOK 24H NH4 CONCENTRATION, - GOK4 NH4
Location GOK4BOD
NH4
+
simulirano
mjereno jednom mjesečno 6/24h
mjereno jednom dnevno
Proning DHI d.o.o.
15-4-1993 4-6-1993 24-7-1993 12-9-19930.0
2.0
4.0
6.0
8.0
10.0
12.0
[mg/l] T ime Series CONCENT RATION IN NODES, BOD DIS, (Sava-93.trf)CONCENTRATION IN NODES, BOD DIS,
714+886
CONCENTRATION, - JAN BOD DIS
691+875
CONCENTRATION, - PET BOD DIS
673+410
CONCENTRATION, - OBO BOD DIS
15-4-1993 5-5-1993 25-5-1993 14-6-1993 4-7-1993 24-7-1993 13-8-1993 2-9-1993 22-9-19930.0
2.0
4.0
6.0
8.0
10.0
12.0[mg/l] Time Series CONCENTRATION IN NODES, DO, (Sava-93.trf) CONCENTRATION IN NODES, DO,
714+886CONCENTRATION, - JANKOMIR 02 691+875CONCENTRATION, - PETROSEV O2 673+410CONCENTRATION, - OBOROVO O2
SAVA RIVER CALIBRATIN RESULT (April - October ’93)
simulirano
mjereno
Jankomir
Petruševac
OborovoProning DHI d.o.o.
1-1-1990 20-7-1990 5-2-1991 24-8-1991 11-3-1992 27-9-19920.0
2.0
4.0
6.0
8.0
10.0
12.0
[mg/l] T ime Series CONCENT RATION IN NODES, DO, (Ver90-92.trf)CONCENTRATION IN NODES, DO,
714+886
CONCENTRATION, - JANKOMIR 02
691+875
CONCENTRATION, - PETROSEV O2
673+410
CONCENTRATION, - OBOROVO O2
1-1-1990 20-7-1990 5-2-1991 24-8-1991 11-3-1992 27-9-19920.0
2.0
4.0
6.0
8.0
10.0
12.0
14.0
[mg/l] T ime Series CONCENT RATION IN NODES, BOD DIS, (Ver90-92.trf)CONCENTRATION IN NODES, BOD DIS,
714+886
CONCENTRATION, - JAN BOD DIS
691+875
CONCENTRATION, - PET BOD DIS
673+410
CONCENTRATION, - OBO BOD DIS
RIVER SAVA VERIFICATION RESULT 1990-92
simulirano
mjereno
Jankomir
Petruševac
Oborovo
+
Proning DHI d.o.o.
Broj događaja u 1989. Volumen preljevanja (m3) BPK (kg /god) NH4 (kg /god)Preljev Črnomerec 18.0 1122338.0 11134.2 810.3
Preljev Savica 12.0 291950.0 907.7 66.9Preljev Radnička 38.0 13401774.5 390636.5 29794.5
0.0
5000000.0
10000000.0
15000000.0
Preljev Črnomerec Preljev Savica Preljev Radnička
VOLUMEN PRELJEVANJA
Volumen preljevanja (m3)
0.0
100000.0
200000.0
300000.0
400000.0
Preljev Črnomerec Preljev Savica Preljev Radnička
BPK - NH4
BPK (kg /god) NH4 (kg /god)
OVERFLOWING 89. god
Proning DHI d.o.o.
Broj događaja u 1995. Volumen preljevanja (m3) BPK (kg /god) NH4 (kg /god)Preljev Črnomerec 13.0 188021.4 3320.7 33.8
Preljev Savica 7.0 16921.7 137.3 10.0Preljev Radnička 42.0 9005043.8 362880.9 24991.4
0.0
2000000.0
4000000.0
6000000.0
8000000.0
10000000.0
Preljev Črnomerec Preljev Savica Preljev Radnička
VOLUMEN PRELJEVANJA
Volumen preljevanja (m3)
0.0
50000.0
100000.0
150000.0
200000.0
250000.0
300000.0
350000.0
400000.0
Preljev Črnomerec Preljev Savica Preljev Radnička
VOLUMEN PRELJEVANJA
BPK (kg /god) NH4 (kg /god)
OVERFLOWING 95. god
Proning DHI d.o.o.
1-1-1989 11-4-1989 20-7-1989 28-10-1989
0.0
1.0
2.0
3.0
4.0
5.0
6.0
7.0
8.0
9.0
10.0
11.0
[mg/l] Time Series of CONCENTRATION IN NODES, DO, CONCENTRATION IN NODES, DO,673+4103| 673+4104| 673+410
EXAMPLE OF SIMULATION RESULTS
Proning DHI d.o.o.
NW, PW, FW -1989.
DO, existing/short term/long term
NW, PW, FW-89BOD, existing/short term/long term
1-1-1989 11-4-1989 20-7-1989 28-10-1989
1.0
2.0
3.0
4.0
5.0
6.0
7.0
8.0
9.0
[mg/l] Time Series CONCENTRATION IN NODES, BOD DIS,673+4103| 673+4105| 673+410
CONCENTRATION IN NODES, NH4,
Proning DHI d.o.o.
NW, PW, FW-89Amonia NH4 , existing/short term/long term
1-1-1989 11-4-1989 20-7-1989 28-10-1989
0.10
0.20
0.30
0.40
0.50
0.60
0.70
0.80
0.90
1.00
[mg/l] Time Series of CONCENTRATION IN NODES, NH4, CONCENTRATION IN NODES, NH4,673+4103| 673+4105| 673+410
Proning DHI d.o.o.
BOD LOAD DISTRIBUTION
kg BPK / god – SHORT TERM
41.27%
58.72%
0.01% SAVA (kritična)
Kanalizacija - ispusti
Preljevi (89)
kg BPK /god – LONG TERM
83%
14%3% SAVA (kritična)
Kanalizacija - ispusti
Preljevi (89)
kg BPK5/god - SADAŠNJE STANJE
42%
58%
Sava
Kanalizacija
Proning DHI d.o.o.
EXISTING SITUATION
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Bliznec
Ravnice
Kozari BokDubrava Sjeverna Čulinečka
Sesvete
Strug
Žitnjak
Južna Čulinečka
GOKWWTP
PHASE III – DESIGNING GOK SYSTEM
• main channel 9590 m long• catchment area 220 km2• DWF 3-4 m3/s• RWF 70 m3/s
Proning DHI d.o.o.
0
5.000.000
10.000.000
15.000.000
20.000.000
25.000.000
30.000.000
35.000.000
40.000.000
45.000.000
Ravnice
Kozari bok
Dubrava
Sesvete
Strug
Preljevanje [m3/god]
Mješoviti dotok na CUP ukišnom razdoblju [m3/god]
ODNOS PRELIVENOG I PROČIŠĆENOG VOLUMENA U KIŠNOM RAZDOBLJU PO PRELJEVIMA
m3
86%
14%
Preljevanje [m3/god]
Mješoviti dotok na CUP u kišnomrazdoblju [m3/god]
ODNOS PRELIVENOG I PROČIŠĆENOG VOLUMENA U KIŠNOM RAZDOBLJU
ODNOS PRELIVENOG I UKUPNO PROČIŠĆENOG VOLUMENA
5%
95%
Preljevanje [m3/god]
Ukupni dotok na CUP [m3/god]
LONG TERM SIMULATION RESULTS - 01.01.1995. do 31.12.1995.
Proning DHI d.o.o.
1-1-1995 20-2-1995 11-4-1995 31-5-1995 20-7-1995 8-9-1995 28-10-1995 17-12-1995
105.2
105.4
105.6
105.8
106.0
106.2
106.4
106.6
106.8
107.0
107.2
107.4
107.6
107.8
108.0
108.2
108.4
108.6
108.8
109.0
[m] Time Series WATER LEVEL NODES (V31-NOVI-C.PRF) WATER LEVEL NODESRADNICK
Kota krune preljeva 108.5 mnm
WATER LEVEL ON CSO RADNIČKA BASED ON I YEAR SIMULATION ( 1.1.1995 DO 31.12.1995.)
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Preljev Radnička, Qs= 3,7 m3/s, 2Qs=7,2 m3/s. L=60m, Qp=58 m3/s
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CSO RADNIČKA
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CSO RADNIČKA PHISICAL MODEL
Testing parameters:• water levels in channels• overflow coefficient • velocities upstream and downstream
of the overflow structure• dynamic pressures• sediment transport• floating sediment transport
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PHASE IV – DETAIL DESIGNING AND CONSTRUCTION
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CONSTRUCTION OF CSO RADNIČKA
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ZAGREB WWTP1,2 mil. PE (1,5)
URBANIZATION EFFECTS
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URBANIZATION EFFECTS
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URBANIZATION EFFECTS
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URBANIZATION EFFECTS
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FROM TRADITIONAL TO BLUE GREEN SOLUTIONS
-Traditional solutions could not compensate for the climate change impact due to various reasons partly due to uncontrolled urbanisation
-Frequent urban floodings caused substantial damages to the urban infrastrucure, properties and human lives
- EU directives to be followed push desicion makers to undertake improvements on the sewerage systems
Proning DHI d.o.o.
SCADA / GIS SYSTEM
-rainfall runoff monitoring
-Establishment of the SCADA system
- Qulity monitoring
-- Further enlargment of the SCADA system with WQ parameters
-- Blue Green designing
-- Water and energy savings
Proning DHI d.o.o.
GIS AND SCADA GIS – sewerage dimensions
Proning DHI d.o.o.
GIS AND SCADA GIS – sewerage age
Proning DHI d.o.o.
GIS AND SCADA GIS – low slope inclination sewage
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GIS AND SCADA
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• SCADA – basic concept
GIS AND SCADA
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• SCADA – basic concept
GIS AND SCADA
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• SCADA – basic concept
GIS AND SCADA
SCADA – phase I
• 24 monitoring - canal
• 4 pumping stations
• 2 CSO
• 20 ombrographs,
• 11 limnigraphs
TOTAL 60 monitors
Proning DHI d.o.o.
GIS AND SCADA
SCADA – final phase
• 81 monitoring canal,
• 49 pumping stations,
• 9 CSO,
• 20 ombrographs,
• 11 limnigraphs
TOTAL 170 monitors
Proning DHI d.o.o.
Proning DHI d.o.o.
SCADA MONITORS:RAIN. VELOCITY, DEPTH (LEVEL)PH, TEMPERATURE, DISSOLVED OXYGEN, ETC
GIS AND SCADA
Proning DHI d.o.o.
• SCADA ZAGREB SCHEME OF COMUNICATION NETWORK
GIS AND SCADA
Proning DHI d.o.o.
• SCADA – remote monitoring stations
BUT ... ALL THIS DID NOT PREVENT SEVEREURBAN FLOODINGS, DAMAGES OF URBAN INFRASTRUCTURE ETC.
Proning DHI d.o.o.
BLUE GREEN SOLUTION(PROF. MAKSIMOVIC)
Blue green urban concept
Proning DHI d.o.o.
BLUE GREEN SOLUTION(PROF. MAKSIMOVIC)
Blue green urban concept
Proning DHI d.o.o.
Click icon to add picture
BLUE GREEN SOLUTION(PROF. MAKSIMOVIC)
Blue green urban concept
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BLUE GREEN SOLUTION(PROF. MAKSIMOVIC)
Blue green urban concept – example: Zagreb campus
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CONCLUSIONS – LESSONS LEARNED
STRUCTURAL MEASURES, BEING TRADITIONAL APROACH ARE IN URBAN AREAS EXPENSIVE AND CAN NOT ACCOMODATE FOR EFFECTS OF CLIMATE CHANGES
NON-STRUCTURAL MEASURES ARE HELPING IMPROVING OVERALL PERFORMANCE OF THE SS
GIS / SCADA FURTHER IMPROVES SS MANAGEMENT
BLUE GREEN CONCEPT FURTHER IMPROVES WATER / ENERGY CYCLE IN CITIES BALANCING INPUTS AND OUTPUTS, ENABLING SUISTAINABLE FUTURE
COMBINATION OF STRUCTURAL AND NON-STRUCTURAL MEASURES SUPPORTED BY BLUE GREEN CONCEPT WILL ALOW THE MOST BALANCED MULTICRITERIAL SOLUTIONS
BY IMPLEMENTING COMBINATION OF STRUCTURAL , NON-STRUCTURAL AND BLUE-GREEN MEASURES ONE CAN ACHIEVE HIGHER URBAN STANDARD, HIGHER SECURITY AND LOWER O/M COSTSProning DHI d.o.o.