Techniques for Handling Air- and Moisture-Sensitive Compounds
Heat, Air & MoistureHeat, Air & Moisture …...Moisture Management Principles for the Building...
Transcript of Heat, Air & MoistureHeat, Air & Moisture …...Moisture Management Principles for the Building...
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Heat, Air & MoistureHeat, Air & Moisture Management in
Commercial BuildingsCommercial Buildings
>
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AIA/CES CEU
This program is registered with the AIA/CES for continuing professional education As such it does not include contentprofessional education. As such, it does not include content that may be deemed or construed to be an approval or
endorsement by the AIA of any material of construction orendorsement by the AIA of any material of construction or any method or manner of handling, using, distributing, or dealing in any material or product Questions related todealing in any material or product. Questions related to
specific materials, methods, and services will be addressed at the conclusion of this presentation.at the conclusion of this presentation.
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AIA/CES CEU
DuPont Tyvek® is a Registered Provider with The American Institute of Architects Continuing Education Systems. Credit
d l f h ll b dearned on completion of this program will be reported to CES Records for AIA members. Certificates of Completion for
AIA b il bl tnon‐AIA members available on request.
1 CEU/HSW1 CEU/HSW
Heat Air & Moisture Management in Commercial BuildingsHeat, Air & Moisture Management in Commercial Buildings
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Outline
1. Physics of Heat, Air and Moisture Transport through the Building Enclosure: The 4 Control LayersBuilding Enclosure: The 4 Control Layers
2. Moisture Management Principles for the Building Enclosure: The Balance of Wetting vs. Drying
3 Climate-specific Design Considerations for Building Enclosure3. Climate specific Design Considerations for Building Enclosure
4. Condensation Analysis Tools
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1. Physics of Heat, Air and Moisture Transport throughthe Building Enclosure: The 4 Control Layers
2. Moisture Management Principles for the Building g p gEnclosure: The Balance of Wetting vs. Drying
3. Climate-specific Design Considerations for Building Enclosure
4 Condensation Analysis Tools4. Condensation Analysis Tools
Section 1
Physics of Heat, Air and Moisture Transport through the Building Enclosure: The 4 Control Layers
< H >5 < H >5
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SECTION 1
The Building Enclosure (Building Envelope1)Roof:
● Separates the interior and exterior environments
● Primary functions: control the flow of energy (heat, sound, light, etc.) and flow of mass (air,
i t t )
Wall:
moisture, etc.)» Today’s focus: Heat‐Air‐
Moisture (HAM)
● The building envelope includes roof, wall and foundation
» Today’s focus: walls Foundation:» Today s focus: walls Foundation:
Source1: Joe Lstiburek, Insight Vocabulary (Insight –
< H >6
, g y ( g24): “Building Enclosures, not Building Envelope. You put letters in an envelope not people”
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SECTION 1
Wall Evolution …Then Now
Heat-Air-Moisture
Masonry
NowWater Control Layer
Air Control Layer
Vapor Control Layer*
Thermal Control Layer
Drywall Finish
Plaster
Services
Exterior Sheathing
< H >7
Plaster
*Vapor Control Layer use and location in the wall is climate specific
Exterior cladding
Exterior Sheathing
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SECTION 1
Heat Flow and Heat Management
Conduction● Heat flow
through materials
Thermal Insulation
ConvectionConvection● Heat flow
through air t
Air Barriers
currents
Radiation● Heat flow
through space
< H >8 < H >8Radiant Barriers Cool Roof
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SECTION 1
Energy Codes & Standards: Canada
MNECB: The Model National Energy Code of Canada for Buildings
– Last Version: MNECB 1997Last Version: MNECB 1997 – Sets minimum requirements for energy efficiency in buildings, taking
into account regional construction costs, regional heating fuel types and costs and regional climatic differences; focuses on airtightness
– The MNECB applies to all buildings other than houses of three storeys– The MNECB applies to all buildings, other than houses of three storeys or less, and to additions of more than 10 m2 to such buildings
● MNECH: The Model National Energy Code of Canada for HousesCanada for Houses
– Last version: MNECH 1997– The MNECH applies to residential buildings of three storeys or less, and
additions of more than 10 m2 It refers to the RSI values that guideadditions of more than 10 m . It refers to the RSI values that guide home building and focuses on airtightness.
NBC-2005 ● NBC ‐‐ Section 5 – Environmental Separation
< H >9 < H >9
2005
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SECTION 1
Energy Codes Updates: Canada
● The MNECB 1997 referenced ASHRAE 90.1 - 1989
● The Canadian Commission on Building and Fire Codes (CCBFC) has created the Standing Committee on Energy Efficiency in Buildings (SCEEB) to update the technicalEfficiency in Buildings (SCEEB) to update the technical provisions of the MNECB 1997
● The updated MNECB is scheduled to be published in 20112011.
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SECTION 1
Energy Code Trends – Framed Construction
Traditional Wall Design
Exterior insulation to address thermal bridging and increase R‐value
R1/R2 ill d t ing ding
• R1/R2 will determine dew point location
• Moisture Management r cla
ddin
or c
ladd
gconsiderations
Exte
rio
Exte
ri
Cavity Insulation Hybrid Insulation System
< H >11 < H >11 (Frame Construction: Steel / wood studs)
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SECTION 1
Table 9.25.1.2. Ratio of Outboard to Inboard Thermal
NBC -2005
ResistanceHeating Degree‐Days of
Building Location(1) Celsius
Minimum Ratio (R2/R1), Total Thermal Resistance Outboard of Material's Inner
Building Location( ), Celsius degree‐days
Surface to Total Thermal Resistance Inboard of Material's Inner Surface
up to 4,999 0.20
5,000 to 5,999 0.30
6,000 to 6,999 0.35
7 000 t 7 999 0 407,000 to 7,999 0.40
8,000 to 8,999 0.50
9,000 to 9,999 0.559,000 to 9,999 0.55
10,000 to 10,999 0.60
11,000 to 11,999 0.65
< H >1212,000 or higher 0.75
Dew Point outside Water Control Layer
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SECTION 1
Quiz # 1
Thermal insulation controls flow of heat by:
___ Convection
___ Conduction___ Radiation
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SECTION 1
Quiz #2
Continuous insulation (c.i.) in framed walls is:
___ Insulation placed within the stud cavity
___ Insulation uninterrupted by framing___ Insulation with taped joints
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SECTION 1
Air and Moisture Transport
Air Transport P
Moisture TransportLiquid Water
● Main source: Rain
Moisture Transport
● Main source: Rain
HWater VaporsH
H
HH
H
● Air transported ● Diffusion
< H >15
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SECTION 1
Air Leakage
U l d / U di bl / U i i l Ai fl
P
Unplanned / Unpredictable / Unintentional Airflow
P
P1 P2
P
(1) Driving Force: Air Pressure difference (P) P1 P
P
difference (P)
(2) P h
P2
(2) Pathway: Porous materials & unintended openings
Porous materials Unintended Openings
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SECTION 1
Sources of Air Pressure Difference (P)
There are 3 main sources of P:
StackPressure
MechanicalPressure
WindPressure
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SECTION 1
Air Leakage Consequences
ThermalComfort
Indoor AirQuality
MoistureDamage
Convective Loops HVAC
“Wind Washing”
Wet Insulation
Indoor Environment
EnvelopeDurability
Energy Efficiency
< H >18 < H >18
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SECTION 1
Air Control Layers (ABS)
Air Barrier System Vapor BarrierAir Barrier System Vapor Barrier
Sealed Drywall
Airtight Drywall Approach:“Housewrap” air Airtight Drywall Approach: Internal Air Barrier
Housewrap air barrier system
In framed systems two air barrier systems one inside and one outside ofIn framed systems, two air barrier systems, one inside and one outside of the framing, are often desirable….. Such redundancy is needed because of thesusceptibility of these systems to wind washing, convective loops, ABS
< H >19Source: Air Flow Control in Buildings, John Straube -- Building Science Digest 014: last updated 2009/10/14
failure, and other airflow control problems.
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SECTION 1
Air Barrier Requirements1
1. Air Infiltration Resistance
2. Continuity2. Continuity
3. Strength (Structural Integrity)
4. Durability
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SECTION 1
1). Air Infiltration Resistance Requirements: NBC 20055.4.1.2.Air Barrier System Properties
…… materials intended to provide the principal resistance to air leakage shall have an air leakage characteristic not greater than0.02 L/(s•m2)
2) Air Barrier Continuity Requirements – NBC 2005
9 25 3 3 Continuity of the Air Barrier System9.25.3.3. Continuity of the Air Barrier System 1) Where the air barrier system consists of an air-impermeable panel-
type material, all joints shall be sealed to prevent air leakage.2) Where the air barrier system consists of flexible sheet material, all
joints shall sealed, or lapped , etc………..
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Wall-RoofSECTION 1
Wall RoofAir Barrier Continuity, e.g. Wall-Roof Interface
Air Barrier plane must beAir Barrier plane must be clearly indicated on drawings, must be
continuous, and properly detailed
< H >22 Wagdy Anis, AIA
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SECTION 1
Air Barrier Continuity, e.g. Wall-Roof Interface
Air Barrier plane must be clearly indicated onclearly indicated on drawings, must be
continuous, and properly detailed
< H >23 Wagdy Anis, AIA
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SECTION 1
Air Barrier Continuity, e.g. Wall-Foundation Interface
Wagdy Anis, AIA
Air Barrier plane must be clearly indicated on drawings, must be
< H >24continuous, and properly detailed
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SECTION 1
Air Barrier Continuity
E.g. Flashing of windows and penetrations
Courtesy: Darren Casale, AIA
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SECTION 1
Windows Integration
Seamless Flashing, minimum intersectionsTime savings: >60% less time
< H >26
Time savings: >60% less time
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SECTION 1
What is wrong with this picture?
Discontinuity at window‐wall interface
< H >27
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SECTION 1
3) Structural Integrity
2005 NBC – Air Barriers Structural Design Requirements
5.4.1.2.Air Barrier System Propertiesy p
The structural design of air barrier systems installed in assemblies subject to air pressure loads shall have sufficient capacity and integrity to resist or accommodate all environmental loadsenvironmental loads
< H >28
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SECTION 1
3) Structural Integrity – US StandardsAi B i t ith t d l d b bl t t fAir Barriers must withstand pressure loads or be able to transfer the load to the substrate
� Air Barrier assembly testing: ASTM E1677 or ASTM E2357y g
� ASTM E2357 test procedure: apply positive and negative pressure loads to wall assemblies, and test for air & water infiltration, deflection, or damage to the air barrier g
Wall assemblies (8’ x 8’) tested for structural f
integrity
Opaque wall Wall with Penetrations
< H >29
Opaque wall
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SECTION 1
ASTM E1677 and ASTM E2357 Comparison – Structural Requirements
ASTM E1677‐00 ASTM 2357 ‐05ASTM E1677 00 ASTM 2357 05
Number of Test Specimen and configuration
One Specimen: Opaque Wall (8ft x 8 ft walls)
Test two of the three Specimens (8ft x 8 ft walls): 1 Opaque Wallconfiguration (8ft x 8 ft walls) 1 ‐ Opaque Wall2 – Wall with penetrations 3 – Wall‐Foundation Interface
Conditions for Air Single Test Pressure: Seven Test Pressures: Leakage Testing 75Pa (1.56 psf, 25 mph)
(Positive pressure, only)+/‐ 25Pa (0.56 psf, 15 mph)+/‐ 50Pa (1.04 psf, 20 mph)+/‐ 75Pa (1.56 psf, 25 mph)/ 100P (2 09 f 30 h)+/‐ 100Pa (2.09 psf, 30 mph)+/‐ 150Pa (3.24 psf, 35 mph)+/‐ 250Pa (5.23 psf, 45 mph)+/‐ 300Pa (6.24 psf, 50 mph)/ 300Pa (6.24 psf, 50 mph)(Positive & negative pressures)
Pressure Loading Schedule
Sustained loads up to +500 Pa (10.4 psf, 65 mph)
1 ‐ Sustained, +/‐ 600Pa (12.5 psf, 71 mph)2 ‐ Cyclic, +/‐ 800 Pa (16.7 psf, 82 mph)
< H >30
(Positive pressure, only) 3 ‐ Gust, +/‐ 1200 (25 psf, 100 mph)(Positive & negative pressures)
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SECTION 1
Screw Fasteners and 16" O.C. Steel Stud Spacing
Allowable Pressure
W h SiFastener
Pounds per sq. inch [psf]
Miles per Hour [mph]
Washer SizeSpacing
12" 90 psf 188 mph
18" 60 psf 153 mph
12" 70 psf 165 mph
2" Metal
12 70 psf 165 mph
18" 45 psf 133 mph
12" 60 psf 153 mph1 25" M t l
2" Plastic
< H >31
p p
18" 40 psf 125 mph1.25" Metal
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SECTION 1
4) Durability
Air Barriers must withstands environmental exposures:� UV* (must follow manufacturer’s recommendation for exposure limit)
� Thermal exposure & thermal cycling� Repeated exposure to water� Abrasion� Mechanical stresses� Mechanical stresses
* Most air barrier membranes are not designed for continuous UV exposure
< H >32
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SECTION 1
Air and Moisture Transport
Air Transport P
Moisture Transport● Liquid Water
● Main source: Rain
Moisture Transport
● Main source: Rain
HWater VaporsH
H
HH
H
● Air transported ● Diffusion
< H >33
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SECTION 1
Rain Water Management: Water Control Layer (WRBs)
Water Control Layer (“WRB”)Water Control Layer ( WRB )“Precipitation Control”5.6.1.1.Required Protection from Precipitation
…………..a) minimize ingress of precipitation into thea) minimize ingress of precipitation into the
component or assembly, andb) prevent ingress of precipitation into
interior space.
5.6.2.1.Sealing and Drainaget i l t bli j i t i
p
materials, components, assemblies, joints in materials, junctions between components and junctions between assemblies exposed to precipitation shall be
» Gravity» Capillary» Rain driven
precipitation shall bea) sealed to prevent ingress of precipitation, orb) drained to direct precipitation to the exterior.
< H >34» Pressure Differential
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SECTION 1
Best Rain Management: The 4 Ds
1. Deflection
2. Drainable
3. Dryable
4. Durable
Primary water management:
< H >35Rain Screen & Drainage Plane
Source: CMHC
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SECTION 1
Air and Moisture Transport
Air Transport P
Moisture TransportLiquid Water
● Main source: Rain
Moisture Transport
● Main source: Rain
HWater VaporsH
H
HH
H
● Air transported ● Diffusion
< H >36
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SECTION 1
Water Vapor transported by Air Currents
P
HH
HH
HH
HH
HH
HH
HH
HH H
HHH
HH
HH
HH
H H
Outside Inside
HHH H
H HHHH
HH
HH
H HH
HH
HH
HH
HH
HH
HH
HH
HH H
H
HHHH H
HH
HH
HH
HHH
H HH
HH
HH
HH
HH
HH
HH
HHH
HH
H
HH
HH
HH
HH
HHH
Air contains Water vapors
HH
HH
H
HH
< H >37
Moisture deposited on cooler surfaces Interstitial Condensation
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SECTION 1
Vapor Diffusion
1 Driving Force:H
H
H
H
1. Driving Force:Concentration difference (Vapor Pressure Difference)
H
HH
H
H
H
HH
H
HH
H
H
HH
H
( p )H
H H
H
H
H
H
H
H
H
H
H
H
2. Pathway: H
HH
H
H
H
HH
H
H
HH
H
yVapor Permeable Materials
From Higher to Lower Concentration< H >38
From Higher to Lower Concentration
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SECTION 1
Moisture Vapor Permeability (MVTR)f th t f t th t th h tha measure of the amount of water vapor that passes through the
material or assembly by vapor diffusion
ASTM E-96 Wet Cup Test (Method B) ASTM E-96 Wet Cup Test (Method A)
HH
HH
HH
HH
HH
HH
HH
HH
HH
HH
Measured in:
“Perms” (grains/ft2.hr.inHg) or “M Perms” (Ng/Pa.s.m2)
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SECTION 1
Vapor Control Layer …. the component (or components) that is (or are) designed and installed in an assembly to control the movement of water by vapor diffusion
H
Predominantly Heating Climates Predominantly Cooling ClimatesH
H
H
H
H
H
H
H
H
H
H
H
HH
H
HH
H
HH
H
H
H
H
H
H
H
H
H
H
H
H
H
HH
H
H
H
H
H
HH
H
HH
H
H
H
H
HH
H
H
H
H
H
HH
HH
HH
HH
HH H
H
HH
HH
HH
HH
HH
H
H
H
H
H
H
H
H
H
H
H
H
H
H
H
H
H
H
H
H
H
H
H
H
H
H
H
H H
HH
Vapor Barrier
HH
Vapor Barrier< H >40
Vapor Barrier p
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SECTION 1
2005 NBC V B i R i t2005 NBC – Vapor Barrier Requirements
9.25.4.2.Vapour Barrier Materials..vapour barriers shall have a permeance not greater than 60
2ng/Pa•s•m2 (1 Perm) measured in accordance with ASTM E 96/E 96M, “Water Vapor Transmission of Materials,” using the desiccant method (dry cup).
9.25.4.3.Installation of Vapour Barriers1) Vapour barriers shall be installed to protect the entire surfaces of thermally1) Vapour barriers shall be installed to protect the entire surfaces of thermally
insulated wall, ceiling and floor assemblies.2) Vapour barriers shall be installed sufficiently close to the warm
id f i l tiside of insulation to prevent condensation at design conditions.
411 Perm ~ 57. 22 ng/Pa•s•m2
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SECTION 1
Water Vapor Diffusion versus Air Transported Moisture
Air Transported MoistureWater Vapor Diffusion Air Transported Moisture
Po Pi
Water Vapor Diffusion
VPo VPi> >H
HH
H
H
HH
H
H
HH
H
H
H
HH
HH
HH H
H
HHH
H HH
HH
H
H
HH
H
H H
H
H
H
H
H
H
H
H
H
HH
H
HH
HH H
H
HH
HH
HH
HHH
H
HH H
H
HH
H
H
H
H
HH
H
H
H
H
H
H
HH
H
HH
HH
HH H
H
HHH
H HH
HH
HH
HH
HH H
H
HHH
H HH
H
98% of all water
H
~ 2% of all water< H >42
“Free ride” 98% of all water vapor migration
Slow Molecular Movement 2% of all water vapor migration
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SECTION 1
Summary: Moisture Transport in Buildings
Liquid water 100X1 Liquid water
to >> 100X
1
to >> 100X
Vapor transported by air currents
to >100X
10X2
1XVapor diffusion3< H >43
3
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SECTION 1
Quiz #3
What is the major moisture source for above grade envelope:
― Vapor Diffusion
envelope:
― Vapor Diffusion
― Rain/Bulk water― Air Transported Moisture
< H >44
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SECTION 1
Quiz #4
Which of the following control layers should be located on the warm side of insulation?
___ Water Barriers
located on the warm side of insulation?
___ Air Barriers
___ Vapor Barriers
< H >45
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SECTION 1
Quiz #5
What is the major source of water vapor in the building enclosure?
Vapor Diffusion
building enclosure?
2% ___ Vapor Diffusion
Ai T t d M i t2%
98% ___ Air Transported Moisture98%
___ Equal contribution of the 2
< H >46
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SECTION 1
Quiz # 6
“Breathable” materials allow: Vapor permeable___ Liquid water
p p
___ Water Vapor ___ Airflow
…..to pass through< H >47
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1. Physics of Heat, Air and Moisture Transport through the Building Enclosure: The 4 Control Layers
2. Moisture Management Principles for the Building g p gEnclosure: The Balance of Wetting vs. Drying
3. Climate-specific Design Considerations for Building Enclosure
4 Condensation Analysis Tools4. Condensation Analysis Tools
Section 2
Moisture Management PrinciplesMoisture Management Principles for the Building Enclosure: The Balance of Wetting vs. Drying
< H >48 < H >48
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SECTION 2
Moisture Management Principles: Balance of Wetting vs DryingBalance of Wetting vs. Drying
M i t i t i t l b id d● Moisture intrusion can not always be avoided
● Moisture problems will only occur if buildings getMoisture problems will only occur if buildings getwet and stay wet
Th k t i t t th● The key to moisture management: manage the balance of wetting vs. drying
< H >49
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SECTION 2
Prevent Promote
The Balance of Wetting & Drying
Prevent Promote
Wetting Drying1.Bulk Water2 Air transport
g Drying1. Drainage2 Ventilation2. Air transport
3. Diffusion
2. Ventilation2. Diffusion
Dual Role of Diffusion: Wetting & Drying
< H >50
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SECTION 2
Dual Role of Diffusion
….. increased airtightness must be matched by an appropriate ventilation system to dilute pollutants provide fresh air and control cold weather humidity levels Gooddilute pollutants, provide fresh air, and control cold weather humidity levels. Good airflow control through and within the building enclosure will bring many benefits: reduce moisture damage, energy savings, and increased health and comfort. However, while airflow usually causes wetting in enclosures, it also can be a powerful drying mechanism. Therefore, enclosures with increased air flow control demand greater attention to other sources of drying (diffusion is the only practical mechanism available) and the(diffusion is the only practical mechanism available) and the reduction or elimination of other sources of wetting (built-in, rain and diffusion).
Source: Air Flow Control in Buildings, John Straube -- Building Science Digest 014: last updated 2009/10/14
< H >51
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SECTION 2
When it contributes to Wetting:
When is Diffusion “Bad”?When it contributes to Wetting:
e.g.Diffusion into the wall cavity
H
H H
H
H
H
HH
H
H
HH
H
e.g. wetting from the inside e.g. wetting from the outside
H
H
H
H
H
H
H
H
H
H
H
H
H
H
H
H
HH
H
H
H
H
H
HH
HH
H
H
H
H
H
H
H
H
H
H
H
H
HH
HH
H
H
H
H
H
H
HH
HH
HH
HH
H
HH
H
H
H
H
H
H
H
H
H
H
H
H
H
H
H
H
H
H
H
H
H
H
H
HH
HH
H
Vapor Control Layer (VB)
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SECTION 2
When it contributes to Drying :When is Diffusion “Good”?
When it contributes to Drying : Diffusion out of the wall cavity
e g dr ing to o tside e g drying to insideH
H H
H
H
H
H
H
H
H
H
H
H
H
H
H
H
H
e.g. drying to outside e.g. drying to inside
H
H
H
H H
H
H
H
H
H
H
H
H
H
H
H
H
H
H
H
H
H
H
HH
H
H
H
H H
H
H
H
H
H
H
H
H
H
HH H
H
H
H
H
H
H
H
HH
HH
H
H
H
H
H
H
H
H
H
H
H
H
H
H
H
H
H
H
H
H
H
H
H
H
H
H
H
Diffusion Drying Requires Vapor Permeable Materials in the preferred drying direction
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SECTION 2
Quiz # 7
Which of the following materials would allow more vapor diffusion?
___ 5 Perms (286 Ng/Pa.s.m2)
vapor diffusion?
___ 10 Perms (572 Ng/Pa.s.m2)
___ 30 Perms (1717 Ng/Pa.s.m2)The higher the Perms, the higher the vapor permeability more diffusion
< H >54
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SECTION 2
Quiz # 8Q
When is Diffusion Bad?
― In cold climates
― In hot climates
― When it contributes to wetting
< H >55
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SECTION 2
Quiz # 9Q
When is Diffusion Good?
― When it contributes to dryingWhen it contributes to drying
― When it occurs from the inside to the outside
― When it occurs from the outside to the inside
< H >56
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1. Physics of Heat, Air and Moisture Transport through the Building Enclosure: The 4 Control Layers
2. Moisture Management Principles for the Building g p gEnclosure: The Balance of Wetting vs. Drying
3. Climate-specific Design Considerations for Building Enclosure
4 Condensation Analysis Tools4. Condensation Analysis Tools
Section 3
Climate-specific Design Considerations for Building EnclosureEnclosure
< H >57 < H >57
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SECTION 3
Cavity Insulation Exterior Insulation
Wall Design and Climate NeedsCavity Insulation
T gradient acrossthe wall cavity
Exterior InsulationT gradient outside the wall cavitythe wall cavity the wall cavity
Toutside Toutside
ace
T
HH
HH H
HH
H
HH
HH H
H
ed S
pa
Tinside
TinsideHH
HHH
HH
H
HH
HHH
H
HH
diti
one
Toutside Toutside
H H
Con
dDiffusion Drying Critical
& Climate SpecificAll Climates Wall
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SECTION 3
“Hybrid” Wall Design: Exterior & Cavity Insulation
● General moisture management gprinciples – similar to cavity insulation walls
ation
ation
● Additional attention must be paid to potential for double vapor barrier:
ity Insula
ior Insula
─ Choice of exterior insulation and other exterior envelope componentsCa
vi
Exter
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SECTION 3
Moisture Managed Envelope Design: Cold Climates
Hi hL V Higher Vapor Pressure side
Lower Vapor Pressure side
HH
HH
HH
HH
HH
H
H
H
H
Drying to Wetting from i id
H
H
H
HOutside inside
Vapor Barrier: Prevent Wetting
Air & Water BarrierVapor Permeable
Prevent Wetting
Vapor Barriers Inside: Prevent Wetting
< H >60 Vapor Permeable Materials Outside: Allow Drying
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SECTION 3
Moisture Managed Envelope Design: Hot & Humid Climates
Air and Water Barrier
H
HH
H
H
H
HHigher Vapor
Air and Water Barrier Also Vapor Barrier
H
HH
H
H
H
H
H H
H
H
H
H
H
Pressure side Lower Vapor Pressure side
HHH
H
H
H
H
H
H
H
H
H
H
H
H
H
H
H
H
H
H
H
H
H
Drying to InsideH
H
HH
HH
HH
HH
Wetting from outside
H
HH
H
H
H
H
H
H
H(e.g. ZONE 1)
Vapor Barrier Outside: Prevent Wetting V P bl M t i l I id All D i
< H >61
Vapor Permeable Materials Inside: Allow Drying
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SECTION 3
Mixed Climates
Moisture Managed Envelope Design: Mixed Humid Climates
H HH
H
“Winter Season” “Summer Season”H
Mixed Climates
H
H
H
H
H H
H
H
H
H
H
H
H
H HH
H
H
H
H
H
H
H
H
H
H
H
HH
H
H
H
H
H
H
H
H
H
H
H
H
H
HH
H
H
H
H
H
H
H
H
H
H
H
H
H
H
H
H
H
HH
H
H
H
H
H
H
H
H
H
H
H
H
HH
H
H
H
H
H H
H
H
H
H
H
H
H H H
H
Vapor BarrierVapor Barrier
< H >62
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SECTION 3
International Climate Zone Definitions – ASHRAE 90.1
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SECTION 3
Canadian Climate Zones: 5, 6, 7 8 (ASHRAE 90.1)
64
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ORNL Weather File AnalyzerWeather File Analyzer
Vancouver, BC Canada
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Hourly T °FJan. Dec.
Hourly T, FVapor Pressure
H l RHHourly RHJan. Dec.
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SECTION 3
0.6Exterior Vapor Pressure
0.5
Hg.
0.45 in Hg76°F, 50% RH
0.4
essu
re,in
0.3
apor
Pre
70°F, 40% RH0.30 in Hg
0.2
xter
ior V
a 0.30 in Hg
0 0
0.1Ex
Vancouver, BC
0.00 1500 3000 4500 6000 7500 9000
HoursJan. Dec.
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SECTION 3
0.3
Diffusion to outsideVapor Pressure Difference and Diffusion Drive
0.2
n.H
g)
sure
Diffusion to outside
0.1
eren
ce (i
npo
r Pre
ss
0.00 1500 3000 4500 6000 7500 9000
sure
Diff
eE
xter
ior V
a
-0.1
por P
ress
nter
ior -
Ex
-0.2
Va (In
-0.3VP interior = 0.368
Vancouver, BC Diffusion in Both Directions
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SECTION 3
2009 IBCSection 1405.3: Vapor Retarders
Class I: 0 1 perm or less
2009 IBC
Class I: 0.1 perm or less Class II: 0.1 < perm 1.0 perm Class III: 1.0 < perm 10 perm
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1. Physics of Heat, Air and Moisture Transport through the Building Enclosure: The 4 Control Layers
2. Moisture Management Principles for the Building g p gEnclosure: The Balance of Wetting vs. Drying
3. Climate-specific Design Considerations for Building Enclosure
4 Condensation Analysis Tools4. Condensation Analysis Tools
Section 4
Condensation Analysis Toolsy
< H >70 < H >70
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SECTION 4
Condensation Analysis ToolsCondensation Analysis Tools
● Steady-state calculations: e.g. Dew Point AnalysisAnalysis
● Transient Modeling Tools: e.g. WUFIg g(Wärme Und Feuchte Instationär or Transient Heat and Moisture)Heat and Moisture)
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SECTION 4
Dew Point Analysis: Inherent Limitationsy
1. Based on vapor diffusion only1. Based on vapor diffusion only
2. Steady-state conditions only (does not id diff i ki i )consider diffusion kinetics)
CONDENSE: GES Technologies, 6705 Jean-Talon Est, bureau 201, Montreal, Quebec, H1S 1N2 Canada; Phone: 514-257-5899; www.ges-int.com
The HEAT, AIR & MOISTURE TOOLBOX, developed by Quirouette Building Specialists Ltd., 532 Montreal Road, Suite 107, Ottawa, Ontario, Canada, K1K 4R4; [email protected]
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Example 1: Dew Point outside the Exterior Sheathing
Dew Point T = -16.5°C
< H >73 Is this a good wall design?
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Example 2: Dew Point in the wall cavitySECTION 4
Example 2: Dew Point in the wall cavity
De Point T = 1 1°CDew Point T = -1.1 C
< H >74 Is this a good wall design?
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What is WUFI
C l d h t & i t t t i l ti d lCoupled heat & moisture transport simulation models developed by the Fraunhofer Institute for Building Physics (IBP) and Oak Ridge National Laboratory (ORNL)(IBP) and Oak Ridge National Laboratory (ORNL)
Still based on vapor diffusion only - DoesStill based on vapor diffusion only Does not account for air transported moisture
http://www.ornl.gov/sci/btc/apps/moisture/ibpe_sof161.htm
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How is WUFI Different?
● Real climate data/ transient parameters● Real climate data/ transient parameters> Not a single point calculation like dew point
● Models moisture accumulation and diffusion drying in multi-layer building assemblies
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Example Stucco, Vancouver
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Example WUFI RunExterior InteriorExterior Interior
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Water Content in the Exterior Sheathing (GB)12
10
Interior Gypsum Board Gypsum Board (USA)
8
nt, k
g/m
3
6
r Con
ten
2
4
Wat
er
0
2
0 2000 4000 6000 8000 10000 12000 14000 16000 180000 2000 4000 6000 8000 10000 12000 14000 16000 18000Hours
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Water Content in the Exterior Sheathing (GB)12
10
Interior Gypsum Board Gypsum Board (USA)
8
nt, k
g/m
3
6
r Con
ten
2
4
Wat
er
0
2
0 2000 4000 6000 8000 10000 12000 14000 16000 180000 2000 4000 6000 8000 10000 12000 14000 16000 18000Hours
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SUMMARY
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SUMMARY
Summary1 Ph i f H t Ai d M i t T t th h1. Physics of Heat, Air and Moisture Transport through
the Building Enclosure: The 4 Control Layers
2. Moisture Management Principles for the Building Enclosure: The Balance of Wetting vs DryingEnclosure: The Balance of Wetting vs. Drying
3. Climate‐specific Design Considerations for Building Enclosure
4 Condensation Analysis Tools
Conclusion
4. Condensation Analysis Tools
Conclusion
• Building Physics are universal
• The key to moisture management is theThe key to moisture management is the balance of wetting vs. drying
• Design for moisture management is climate specific This concludes The American
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climate specific Institute of Architects Continuing Education Systems Program
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� Participate in a five‐year certification processprocess
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< H >84©Copyright 2008 E.I. du Pont de Nemours and Company. All Rights Reserved.