12#06#16&
1&
High#Performance&Enclosures&to&Enable&Simplified&HVAC&
Dr&John&Straube,&P.Eng.&Building&Science&CorporaFon&
University&of&Waterloo&www.BuildingScience.com/
IntroducFon&
• DefiniFons&– What&is&a&HP&enclosure&– What&is&a&simple&HVAC&&&why&do&you&want&one&
• What&strategies&work&
HP&Enclosures&
• Control&energy&flow&across&&– Minimize&need&to&deliver&lots&of&energy&
• Control&temperature&of&inside&surfaces&– Maintain&comfort&even&as&air&temperature&varies&
• Durable,&control&rain,&airFght,&etc&
Simple&Mechanicals&
• This&class:&focus&on&Space&CondiFoning&– HeaFng&cooling&venFlaFng&
• Simple&means&– &you&can&understand&how&they&work&under&all&condiFons&
– They&can&be&understood&by&repair&&&maintenance&
12#06#16&
2&
HP&Enclosure&Metrics&
• Peak&heat&loss&– 5&BTU/hr/sf,&eg&10&000&BTU/hr&for&2000&sf&house&– <&10&in&cold&climates&
• Peak&cooling&– 15&BTU/hr/sf&&&– Use&thermal&mass&to&reduce&this&
12#06#15& 6&
FuncFons&
Five&CriFcal&funcFons&are&needed&• VenFlaFon&– “fresh&air”&– Dilute&/&flush&pollutants&
• HeaFng&• Cooling&• Humidity&Control&• Air&filtraFon&/&pollutant&Removal&– Remove&parFcles&from&inside&and&outside&air&– Remove&pollutants&in&special&systems&
What&do&you&need&to&deliver?&
All&require&metered&deliver&of&fresh&air,&and&some&exhaust&of&polluted&air&&
The&New&World&
• HeaFng&/&cooling&loads&shrinking!&– Be`er&insulaFon,&airFghtness,&windows&– MulF#unit&=&small&exterior&enclosure&area&
• DHW&is&can&be&larger&energy&demand&– Only&efficient&appliances&can&reduce&DHW&use&
• A&useful&definiFon&of&low&heaFng&load&is&a&residenFal&building&with&space&heaFng&loads&of&less&than&2&Fmes&DHW&
12#06#16&
3&
Low#energy&houses&
• Peak&demand&for&well#insulated&2000&sf&– Ofen&20&kBtu/hr&or&less,&usually&under&30&– Townhouses&ofen&under&12&kBtu/hr&
• Annual&space&heaFng&demand&usually&under&7500&kWh/yr&– (e.g.&200&therms)&– High&specs,&simple&buildings&gets&demand&lower&
DomesFc&HotWater&
• Typical&household&– 4000&kWh&demand&+/#&(136&therm)&– NaFonal&use$5600&kWh&(192&therm)&
• Typical&5&unit&+&building.&Use&/unit&– &2500&kWh&demand&(86&therm)&– 3575&kWh/yr&esFmated&use$(122&therm)&
Zeta/Homes.//Dan/Smith/Architect.//Oakland,/CA/
0
10
20
30
40
Heating Cooling Fan
kBtu
/h
0
200
400
600
800
1000
1200
1400
1600
Fan
Vol
ume,
cfm
HVAC Rated Capacities
Reference Townhouse ZETA 4.6 kW PV - NetZero energy
32
10
17
5
1432
437
12#06#16&
4&
0.0
0.1
0.2
0.3
0.4
Int lights Ext lights Hot water Other Heating Cooling Fan
$ / f
t²ZETA-WY4 - ANNUAL COST BREAKDOWN
Reference Townhouse ZETA 4.6 kW PV - NetZero energy
0.105
0.075
0.011 0.008
0.383
0.100
0.3180.305
0.338
0.026
0.006 0.011
0.076
0.008
CalculaFons&&
• Need&to&see&some!&• They&don’t&need&to&be&very&precise,&just&correct&
• Qloss/gain&=&A&!ΔT&/&R&• Qsolar&& &=&A!&SHGC&!&Isolar&(I=200#250&Btu/hr/sf)&
• Qair&=&1.06&!A&!ΔT&&
Basic&AssumpFons&
• ConservaFon&of&mass&– Air&in&=&air&out&
• ConservaFon&of&energy&– Energy&in&=&energy&out&(if&temperature&is&to&remain&constant)&
• Perfect&mixing&of&air&– InjecFng&heat&into&a&room&will&mix&and&become&uniform&temperature&
12#06#16&
5&
Examples:&SF,&40F&outdoors&
• 20&x&25&f&=&600&sf&1&BDR&interior&apartment&– 20*9&f&height&=&180&sq&f&enclosure&area&– 40%&windows&=&72&sq&f&
• R15&wall,&R3&window,&40&F&outdoor&temp.&– (108/15+72/3)&*&(70#40)&=&(7.2&+&24)&*&30&– 950/Btu/hr/conducAon/losses&(!)&
• Achieve&0.05&cfm/sq&f&@5&Pa&airFghtness&– 9&cfm&leakage&1&*&(70#40)=&/270/Btu/hr/air/leakage/loss&
• VenFlaFon&(New&World&needs&it)&– 30&cfm&w/66%HRV&=&400/Btu/hr/venAlaAon&
Example&con’t&
• Peak&design&load:&1.5&kBtu/hr&(<0.5&kW)&– Corner&apartment&up&to&2.5&kBtu/hr&(1&kW)&….&
• Heat&loss&coefficient&30#50&Btu/F/hr&• If&we&use&HDD65&=&2700&– (30&to&50)*24*2700&=&20#30&therms&($30#$60/yr)&
– 600#1000&kWh/yr&&<$120#200/yr&
• If&we&use&HDD50=117&….&Negligible&• If&2.5&kBtu/hr,&airflow=&50&cfm&@DT=50&&
One&therm&=&29.3&kWh&
Zones&and&rooms&
• R20&wall&R50&roof&R3&window&
N&
15&f&
10&f&
Room/zone&
• (15+10)&*&9&f&high&=&175&sf&• If&5x5&and&5x6&windows&=&25+30&=&55&sf&&• So&120&sf&wall,&150&sf&roof&• Heat&loss&(40F)&• Wall&120&/&20&*&30&=&180&Btu/hr&• Windows&55/3&(30)=&550/hr&
• Roof&150&/&50&(30)&=&&90&Btu/hr&– Total&skin&loss&&=&820&(requires&16&cfm&air&@&120F)&
• Vent,&15&cfm&*&30&=&&450&Btu/hr&(heat&at&supply)&
12#06#16&
6&
So&what’s&the&problem&
• Smallest&condensing&furnaces&are&40&kBu/hr&• Two#stage&furnaces&allow&for&low&stage&fire&at&30&kBtu/hr&
• But&most&hours&are&at&fracFons&of&peak&design&• How&does&the&system&work&with&a&hourly&heat&loss&of&5&to&10&kBtu/hr?&– Runs&for&10&to&20&min/hour&(two&fires/hour?)&– Short&cycling&(wear&&&tear,&inefficiency)&– But&must&provide&ductwork&for&30&kBtu/hr&
Choices&
• Furnace&is&sFll&a&good&choice&if&you&have&natural&gas&and&loads&over&10#15&kBtu/hr&– Choose&smallest&condensing&unit,&lock&out&high&fire&
• Combo&Systems&– Use&high#efficiency&DHW&system&to&provide&heaFng&– Space&heat&can&be&fan&coil,&radiator,&floor&– Can&be&integrated&into&venFlaFon,&filtraFon&
• Size&of&duct/coil&ofen&fixed&by&cooling&system&
Combo&system:&gas&hotwater&heater&
37AHB Series Hydronic Furnace
The optimum in hydronic technology, the newly designed Rinnai® multi-position hydronic furnaces offer a unique solution for a wide variety of small- and medium-sized residential and light commercial applications. They are compact and ready to fit in tight spaces which may include, but not limited to, attics, basements, closets, crawlspaces, and utility rooms.
Intelligent Microprocessor Controller
The 37AHB units are equipped with an intelligent microprocessor control that allows for domestic hot water priority and adapts to available hot water flow for space heating by automatically regulating the pump and fan sequence to maximize comfort.
Fine Tuned to Work with Rinnai Tankless Water Heaters
These unique hydronic furnaces are designed to work in combination with our line of Rinnai® tankless water heaters to deliver heating capacities that cover a wide spectrum of residential and light commercial heating applications. When combined, the units form the Rinnai Tankless Heating System, the first matched, tankless hydronic heating solution in the industry!
PATENT PENDING
FEATURES
Specifications Air Delivery
� Four models covering a range of heating capacities� 27,100 to 96,300 BTU/hour
� Multi-position (upflow, downflow, horizontal left, horizontal right) without modifications *
� Modifiable for side-entry return air� Low-flow, high-head pump custom designed to work
with Rinnai's tankless water heaters� Integrated control board with learning algorithm � No combustion air infiltration losses when used with
a Rinnai tankless water heater� Four selectable heat blower off delay times� Multi-speed motors (ECM)� Strong 20-gauge steel cabinet
� Galvanized, painted� Fully insulated cabinet� Low 34 inch profile
� Multi-position control box� Designed for serviceability� Schrader valves to purge air from the system� Integral filter rack with filter Fan motor with ECM technology
* NOTE: The unit is not designed to be installed on its back or face down.
37AHB Series Hydronic Furnace
` Tested in accordance with ANSI/ASHRAE Standard 37-Latest edition.a Airflows shown are nominal (blower speeds are factory set). For air delivery other than stated, refer to the Air Delivery & Performance table. `` Required filter sizes shown are based on the larger of the AHRI (Air Conditioning & Refrigeration Institute) rated cooling airflow or the heating airflow velocity of 300 ft/min for throwaway type or 450 ft/min for high-capacity type.
Side intake filter to be (1) 20ex20ex1e typical for all models.Air filter pressure drop for non-standard filters must not exceed 0.08 in. wg.This product is manufactured in a facility registered by UL to ISO 9001. File No. A6887.
Part of the Rinnai Tankless Heating System
AHB90AHB75
AHB60AHB45
600000060 (7/2010)
UL recognized component
This product is manufactured in a facility registered by UL to ISO 9001.
37AHB Series Hydronic Furnace
00.
10.
20.
30.
40.
50.
60.
70.
80.
91.
0
TAP
3 (H
)2.
094
892
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884
181
979
577
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092
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186
483
681
278
876
874
269
959
455
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580
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511
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2811
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1298
495
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2012
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4 (L
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512
2211
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6310
1497
993
788
782
977
7
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1 (H
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019
3418
8918
5718
1817
8417
5017
1516
8015
6814
9113
77TA
P 2
(MH)
4.0
1777
1732
1694
1650
1630
1592
1553
1517
1464
1441
1361
TAP
3 (M
L)3.
515
7315
3014
9014
4814
1713
7213
2712
9312
5312
2111
75TA
P 4
(L)
3.0
1400
1351
1317
1275
1225
1183
1134
1095
1053
1011
951
37AH
B090
with
RC
98HP
, RC
80HP
, R9
4LS,
or R
75LS
37AH
B060
with
RC
98HP
, RC
80HP
, R9
4LS,
R75
LS, o
r V5
3i
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LOW
(CFM
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NO
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AIR
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SID
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TA
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SUPP
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C
AP. R
ANG
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ONS
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37AH
B045
with
RC
98HP
, RC
80HP
, R9
4LS,
R75
LS, o
r V5
3i
37AH
B075
with
RC
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37AHB spec sheet cover (7-2010).ai 7/23/2010 10:16:37 AM37AHB spec sheet cover (7-2010).ai 7/23/2010 10:16:37 AM
12#06#16&
7&
Low&speed&fan&sexng&and&lower&water&temperature&(120&F)&allows&for&whole&house&heaFng&of&space&with&just&8#15&kBtu/hr&peak&
ECM&motor&+&low&flow&=&very&low&electrical&draw&
12#06#15& 26&
Terminal&Unit:&Fan&coils&• Use&fans&to&below&room&air&over&coils&– Fan#driven&air&movement&=&distribuFon&/&mixing&within&a&space&
– Noise,&maintenance&issues&• Fans&require&electricity&– Many&exisFng&FC&are&inefficient&and&noisy&– Very/efficient/fan/motors/now&available&&
Courtesy:$Ri-ling$Co.$
Combo&Systems&
• Condensing&Tankless&heaters&– Beware&minimum&output&– Most&units&are&15&to&35&kBtu/hr&minimum&
• Unless&storage&is&provided,&&min&output&of&heaFng&system&&must&min&output&of&boiler&– This&means&duct&sizes,&coils,&etc.&
Combo&System&Warning&
• Provide&buffer&capacity&– Eg&a&storage&tank&
• Limits&short#cycling&when&loads&are&small&(eg&10#30%&of&min.&boiler&output)&
• Buffer&tank&avoids&cold&slug&complaints&too&
©2005&Jack&McKeegan&&&Pa`erson#Kelley&
12#06#16&
8&
Therm-X-TrolST-5
To DHWFixtures
FromCold
WaterMain
Gas UtilityConnection
Taco013-BF3
CondensingTanklessGas HotWaterHeater
Notes:1) Bimetalic thermostat on electric water heater tank is wired to energize the Taco 013 circulator rather than the resistanceelement. Taco 013 circulator is 1/8 HP and is capable of 5 gpm at 30' head, which is the design pressure loss recommended byRinnai when pumping through their tankless water heater.2) Electric water heater storage tank is available from Whirlpool at Lowe’s, with all the ports neccessary. The tankless waterheater loop uses common tank ports common with the domestic water supply inlet and outlet. The space heating coil loop usesthe available side ports.3) Watts-Mueller 351M bronze strainer uses 100 micron stainless steel screen to pre-filter and extend maintenance interval ofsmall tankless water heater inlet filter.4) Field Controls, Clearwave HD electronic water conditioner protects against potential scaling.5) This configuration provides domestic hot water priority and will have the most regulated temperature control at the domesticfixtures, compared to the passive storage system and the system without storage. This system will eliminate the trickle-flow andplug-flow issues common with traditional tankless water heaters. This system will also eliminate tankless water heater short-cycling. When there is a domestic hot water draw, the coldest water will first go to the tankless water heater, thereby increasingthe time of condensing operation and reducing mixing in the tank.
WattsMMV-M1
MixingValve
Hydronic coil in centralsystem process air stream
Armin Rudd, Building Science Corp., www.buildingscience.comrev. 4/10/2010
Condensing Tankless Gas Hot Water Heater ApplicationIn Combination Space and Domestic Hot Water Heating System
120 F
45 F
140 F
140 F
To ColdFixtures
P/T
Watts351M
Strainer
Clearwave-HDelectronic
waterconditioner
Small (6 to12 gal)electricwater heaterstorage tank;controlled to140 F
Taco007-BF5
Tstat
Tstat
120 F
Newer&Condensing&Tanked&systems&
Allows&for&direct&connecFon&to&air&handler.&&No&addiFonal&controls&or&plumbing.&Standard&themostat.&&May&be&lowest&cost&soluFon&for&pre`y&high&efficiency&in&small&apartments,&homes,&with&li`le&cooling&needs&and&gas&supply.&
Split&Heat&Pumps&
• An&opFon&for&4?&– Eg&Portland&Sea`le&Tacoma&20&F&design&temp&
• 2&ton&HP&produce&about&16&kBtu/hr&@20F&• Or&21.6&kBtu/hr&@40&with&COP=3.9&
Seasonal&COP&3#3.5,&cooling&included,&standard&equipment,&<<$3000&
Heat+cool:&Ducts&provides&distribuFon,&can&add&venFlaFon,&no&DHW&
Goodman&SEER16&model&
Ductless&&Mini#split&
ModulaFng=&follows&load&profile&Available&in&small&sizes&BUT,&don’t&provide&venFlaFon&or&DHW&
12#06#16&
9&
Example&&
20&kBtu/hr&output&@40F,&and&COP=3.1&
Mini#split&• Space&distribuFon&from&7kBtu/hr&head?&• AestheFcs&or&exposed&heads&• May&be&excellent&point&cooling&sol’n&with&combo&heaFng&/&venFlaFon&
Heat&Exchange&from&Surfaces&
heaAng/ cooling/
Btu/hr/f2/F& W/m2&K& Btu/hr/f2/F& W/m2&K&
floor& 1.9& 11& 1.2& 7&
wall& 1.4& 8& 1.4& 8&
ceiling& 1.1& 6& 1.9& 11&
• Example:&77&F&floor,&72F&(22C)&room&air&• 9.5&Btu/hr/f2/F&heaFng&
• Example:&69F&ceiling,&74F&(23C)&room&air&• 9.5&Btu/hr/f2/F&cooling&
Radiant&heat/cool&
• Under&most&condiFons&less&heat/cool&needed&• Example:&72F&ceiling,&70F&room&air&• =&3.8&Btu/hr/f2/F&heaFng&
• If&room&temp&drops&to&69,&and&addiFonal&50%&heat&(1.9)&will&be&added.&&If&room&temp&rises&to&71,&50%&less&heat&added&
• “self&control”&of&the&temperature&w/&thermostat!&
12#06#16&
10&
Radiant&Floor&“Self#control”&
• With&small&Delta&T&terminal&units,&there&is&a°ree&of&self&control&
• Huge$pracFcal&control&and&comfort&benefit&in&low&flux&(low&temp)&radiant&floor&&&ceilings&
Building&Science&
TRV&(very&simple)&
12#06#15& John&Straube& 41&
12#06#16&
11&
HeaFng&Cooling&(and&mixing)&
• Need&good&windows&
12#06#15& 42&
MulF#unit&Issues&
• Metering:&per&suite&or&per&building&• Fuel#Source:&Gas&or&all#electric&– Carbon?&Dollars?&Energy?&
• DHW&or&just&space&heat?&• Is&Cooling&necessary?&• Grouping:&Central,&unit,&or&mix?&• Equipment&owned&per&suite&or&per&building?&• Perceived&access&to&apt&issues?&
Central&vs&Distributed&
• Central&systems&ofen&– reduce&capital&cost&per&unit&output&of&plant$– Increase&distribuFon&costs&dramaFcally&
– Increase&distribuFon&energy&losses&– Decrease&redundancy&– Increase&complexity&
– Make&sub#metering&expensive/difficult&– Take&advantage&of&load&diversity&
12#06#15& John&Straube&45&
Suite/by/Suite/supply/and/exhaust///
Ganged/sealed/combusAon/–/penetraAons!/SeparaAon/(10R)/
12#06#16&
12&
12#06#15& John&Straube&46&
Point/intermiUent/exhaust/Any/heatVcool/system//Make/up/air/central/through/corridors/or/ducts/Forced/VenAlaAon/and/distribuAon/
12#06#15& John&Straube&47&
Exhaust/fans/with/passive/uncondiAoned/make/up/Any/cooling/and/heaAng/strategy//Air/distribuAon?/FiltraAon?/CondiAon/fresh?/
12#06#15& John&Straube&48&
Exhaust/fans/with/passive/uncondiAoned/make/up/PTAC/cooling/and/radiant/heaAng//VenAlaAon/distribuAon?/
12#06#15& John&Straube&49&
Point/intermiUent/exhaust/AirVbased/heatVcool/system/with/makeVup/venAlaAon//Possible/VTAC/applicaAons/
12#06#16&
13&
Heat&Recovery&
• Beware#¬&always&energy&saving&in&mild&climates&like&SF&
• Large&airflows&(commercial)&usually&worth&it&• Include&Maintenance&access!&
• Mid#scale&HRV&• Emerging&tech&• 200#600&cfm&• Need&to&watch&fan&energy!&
Common&areas&
• Simple&exhaust&– Stairs&– Trash&chutes&– Elevator&shafs&– pools&
12#06#16&
14&
Supply&
• Corridor&• Lobby&
12#06#15& John&Straube&55&
Hydronic/systems///Heat/rejecAon/and//Central/producAon/
12#06#15& John&Straube& 56&
Floor&by&Floor&
VPAC&
12#06#15& John&Straube& 57&
12#06#16&
15&
12#06#15& John&Straube&59&
Air/condiAoning/and/or/heat/pump/
12#06#15& John&Straube& 60&12#06#15& John&Straube&
61&
12#06#16&
16&
12#06#15& John&Straube&62&
12#06#15& John&Straube&63&
BSI#022&Perfect&HVAC&
Any&source&of&heaFng&or&cooling&Combined&venFlaFon/humidity&control&
Terminal&units&can&be&fan&coils,&PTAC,&AHU,&radiant&panels,&etc.&
Typical&office&Modern&offices&ofen&have&small&cores&to&allow&more&people&view&and&light,&and&allow&for&easier&venFlaFon&
12#06#16&
17&
Typ&ProblemaFc&Office&HVAC&
From:&Taylor&Engineering,&VAV&Design&Guide&
Typ.&Bay&area&offices&use&a&lot&of&space&heaFng&gas!!&Note&high&fan&energy.&
Economizers&
• Means&to&blow&cool&outdoor&air&into&building&for&cooling&
• Requires&temperatures&below&65F&or&so&• Qcool,economizer&=&CFM&*(Tin&–&Tout)&• Say&72&indoors,&65&outdoors,&• Qcool,economizer&=&7&Btu/hr&per&CFM&• BUT&…&requires&fan&energy,&many¤t&designs&use&poor&fans&and&small&ducts&
Air#side&Economizer&
• ASHRAE&90.1#2010&allows&VAV&fans&to&use&1.2&W/cfm&• If&Tout&=&65F&&&Tin&=&72&F&– 7&Btu/hr&cooling&/&cfm,&but&need&1.2&Wa`s/cfm&– So&EER&=&7.5&Btu/hr&/&1.2&W&=&6.2,&COP=&1.8&&
• A&standard&AC&will&deliver&be`er&performance&– E.g.,&EER&of&12,&COP=3.5&is&common&for&Tout=65&– When&Tout=58&F&or&lower&such&a&systems&=&AC!&
• Through#wall&paddle&/&vane#axial&fans&can&deliver&air&at&very&high&efficiencies&(i.e.,&<&0.1&W/cfm),&COP>20!&– Provide&motorized&damper&relief&and&low&pressure&ducts&
12#06#16&
18&
Schools&
• E.g&Double#loaded&corridor&or&exterior&corridor&
• One&wall&+&roof&exposed/class&• Small&systems&work&well&per&class&– mini#split&+&HRV&
– VenFlaFon&control&/&class&– Individual&control&of&temperature!&– Lots&of&redundancy,&easy&to&maintain&
Corridor&
Conclusions&
• When&the&loads&drop&due&to&good&enclosures&– New&mechanical&opFons&open&up&– Old¶digms&no&longer&valid&
• Simpler&systems&(decouple&funcFons)&simpler&controls&can&be&designed&
• For&residenFal,&very&small&units&can&be&a&challenge&
• For&commercial,&use&large&residenFal&scale&
At&BuildingScience.com&
High Performance Enclosures
DESIGN GUIDE
JOHNSTRAUBE
FORINSTITUTIONALCOMMERCIALAND INDUSTRIALBUILDINGSINCOLD CLIMATES
FRONT PHOTO: ALEX LUKACHKO
BACK PHOTO: BUILDING SCIENCE CORPORATION
The first part of the Design Guide provides the building science theory that underpins the
designer's work to control water, heat, air and vapor movement across the skin. Specific details,
such as parapets, grade-level connections, window installation, and curtainwall system integra-
tion, are provided for different types of high performance enclosure systems in the second part
of the book. A generous amount of additional supporting information on energy and building
science issues is provided in the appendices.
High Performance Enclosures: Design Guide for Institutional, Commercial and Industrial Buildings in Cold Climates provides
guidance for architects and building enclosure engineers working to meet the growing need for buildings that have significantly
lower operational energy consumption. John Straube addresses a range of practical questions about low energy building enclo-
sures that save energy while simultaneously improving durability, comfort, and rain control: How much of an impact can the
enclosure, massing, and orientation have? How much glazing is appropriate and what options are available? How much does
thermal bridging matter and how can it be minimized at difficult structural details? How does one detail thick layers of continuous
insulation outside of steel stud walls? Can layers of insulating sheathing reduce the risk of moisture damage?
High Performance Enclosures
ABOUT THE BOOK
JOHNSTRAUBE
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