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Air Leakage and Water Vapor Control Chapter 6. Mehta, Scarborough, and Armpriest : Building Construction: Principles, Materials, and Systems © 2008 Pearson.

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Presentation on theme: "Air Leakage and Water Vapor Control Chapter 6. Mehta, Scarborough, and Armpriest : Building Construction: Principles, Materials, and Systems © 2008 Pearson."— Presentation transcript:

1 Air Leakage and Water Vapor Control Chapter 6

2 Mehta, Scarborough, and Armpriest : Building Construction: Principles, Materials, and Systems © 2008 Pearson Education, Upper Saddle River, NJ 07458. All Rights Reserved. Air leakage - The leakage of conditioned air through cracks and unsealed joints in the building envelope Factors that affect air leakage Area in envelope prone to leakage Air pressure differences between inside & outside air Solution: reduce air leakage area

3 Mehta, Scarborough, and Armpriest : Building Construction: Principles, Materials, and Systems © 2008 Pearson Education, Upper Saddle River, NJ 07458. All Rights Reserved. Wind-related pressure differential

4 Mehta, Scarborough, and Armpriest : Building Construction: Principles, Materials, and Systems © 2008 Pearson Education, Upper Saddle River, NJ 07458. All Rights Reserved. Temperature-related pressure differential

5 Mehta, Scarborough, and Armpriest : Building Construction: Principles, Materials, and Systems © 2008 Pearson Education, Upper Saddle River, NJ 07458. All Rights Reserved. Air leakage sites

6 Mehta, Scarborough, and Armpriest : Building Construction: Principles, Materials, and Systems © 2008 Pearson Education, Upper Saddle River, NJ 07458. All Rights Reserved. Air Retarder Continuous membrane applied to exterior of building enclosure prior to finish 5-10 mil plastic sheet Micropores allow vapor to escape but retard passage of moisture and air Applied with staples, taped joints

7 Mehta, Scarborough, and Armpriest : Building Construction: Principles, Materials, and Systems © 2008 Pearson Education, Upper Saddle River, NJ 07458. All Rights Reserved. Air retarder wrapped around exterior wood sheathing in wood light frame construction

8 Mehta, Scarborough, and Armpriest : Building Construction: Principles, Materials, and Systems © 2008 Pearson Education, Upper Saddle River, NJ 07458. All Rights Reserved. Temperature differentials

9 Mehta, Scarborough, and Armpriest : Building Construction: Principles, Materials, and Systems © 2008 Pearson Education, Upper Saddle River, NJ 07458. All Rights Reserved. Sealed window openings

10 Mehta, Scarborough, and Armpriest : Building Construction: Principles, Materials, and Systems © 2008 Pearson Education, Upper Saddle River, NJ 07458. All Rights Reserved. Indoor air quality A well-sealed enclosure can subject interior space to air pollutants Dust, pollen, micro-organisms Carbon dioxide, carbon monoxide Volatile organic compounds (from sprays, cleaning products) Formaldehyde (off-gassing from building products) Radon Interior spaces must be ventilated with adequate amounts of fresh air to prevent health problems

11 Mehta, Scarborough, and Armpriest : Building Construction: Principles, Materials, and Systems © 2008 Pearson Education, Upper Saddle River, NJ 07458. All Rights Reserved. Water vapor in air Almost always water vapor mixed in air Water vapor exerts pressure independent of air pressure Related to amount of vapor present in air Saturated air has maximum amount of vapor present Saturated vapor pressure exists when air is saturated

12 Mehta, Scarborough, and Armpriest : Building Construction: Principles, Materials, and Systems © 2008 Pearson Education, Upper Saddle River, NJ 07458. All Rights Reserved. Relative Humidity Amount of water vapor in air expressed as a relative term RH = weight of water (as vapor) in air weight of water (as vapor) in saturated air Vapor pressure of air Vapor pressure of saturated air RH = X 100 RH (vapor pressure of saturated air) = vapor pressure of air

13 Mehta, Scarborough, and Armpriest : Building Construction: Principles, Materials, and Systems © 2008 Pearson Education, Upper Saddle River, NJ 07458. All Rights Reserved. Calculate vapor pressure in 70º air at 45% relative humidity Vapor pressure of saturated air @ 70º = 52.5 psf (Table 6) RH (vapor pressure of saturated air) = vapor pressure of air 45 100 () 5.5 = 23.6 psf

14 Mehta, Scarborough, and Armpriest : Building Construction: Principles, Materials, and Systems © 2008 Pearson Education, Upper Saddle River, NJ 07458. All Rights Reserved. Human sensation of relative humidity

15 Mehta, Scarborough, and Armpriest : Building Construction: Principles, Materials, and Systems © 2008 Pearson Education, Upper Saddle River, NJ 07458. All Rights Reserved. Water vapor moves (vapor drive) from warm to cold side of an assembly

16 Mehta, Scarborough, and Armpriest : Building Construction: Principles, Materials, and Systems © 2008 Pearson Education, Upper Saddle River, NJ 07458. All Rights Reserved. Dew Point - temperature at which air’s RH becomes 100% Condensation - water vapor in air converts to liquid water Condensation occurs when air temperature is decreased below dew point

17 Mehta, Scarborough, and Armpriest : Building Construction: Principles, Materials, and Systems © 2008 Pearson Education, Upper Saddle River, NJ 07458. All Rights Reserved. R-value & location of dew point

18 Mehta, Scarborough, and Armpriest : Building Construction: Principles, Materials, and Systems © 2008 Pearson Education, Upper Saddle River, NJ 07458. All Rights Reserved. Control of condensation Control entry of water vapor to wall cavity Reduce air leakage (air-moisture barrier on exterior that allows vapor diffusion) Prevent vapor diffusion from warm side of assembly by using a vapor barrier Allow any vapor that enters a wall or attic cavity to exit the assembly Permeable air-moisture barrier on walls (see air retarder) Attic ventilation

19 Mehta, Scarborough, and Armpriest : Building Construction: Principles, Materials, and Systems © 2008 Pearson Education, Upper Saddle River, NJ 07458. All Rights Reserved. Commonly used vapor retarders Glass and metals Roof membranes Asphalt treated paper (kraft paper) Polyethylene sheet

20 Mehta, Scarborough, and Armpriest : Building Construction: Principles, Materials, and Systems © 2008 Pearson Education, Upper Saddle River, NJ 07458. All Rights Reserved. Proprietary vapor retarder

21 Mehta, Scarborough, and Armpriest : Building Construction: Principles, Materials, and Systems © 2008 Pearson Education, Upper Saddle River, NJ 07458. All Rights Reserved. Location of the vapor retarder (in cold climates)

22 Mehta, Scarborough, and Armpriest : Building Construction: Principles, Materials, and Systems © 2008 Pearson Education, Upper Saddle River, NJ 07458. All Rights Reserved. Attic ventilation Control condensation Prevent formation of ice dams at projecting eaves Snow & ice add unwanted loads to eaves Ice dams prevent water from draining off the roof, resulting in leaks Reduce heat transmission to interior of building during summer

23 Mehta, Scarborough, and Armpriest : Building Construction: Principles, Materials, and Systems © 2008 Pearson Education, Upper Saddle River, NJ 07458. All Rights Reserved.

24 Mehta, Scarborough, and Armpriest : Building Construction: Principles, Materials, and Systems © 2008 Pearson Education, Upper Saddle River, NJ 07458. All Rights Reserved. Soffit & gable end vents

25 Mehta, Scarborough, and Armpriest : Building Construction: Principles, Materials, and Systems © 2008 Pearson Education, Upper Saddle River, NJ 07458. All Rights Reserved. Soffit & ridge vent

26 Mehta, Scarborough, and Armpriest : Building Construction: Principles, Materials, and Systems © 2008 Pearson Education, Upper Saddle River, NJ 07458. All Rights Reserved. Soffit & turbine vents

27 Mehta, Scarborough, and Armpriest : Building Construction: Principles, Materials, and Systems © 2008 Pearson Education, Upper Saddle River, NJ 07458. All Rights Reserved. Temperature gradient across an assembly Temperature drop across the entire assembly ∆t 1 + ∆t 2 + ∆t 3 = t Heat flow through an assembly ∆t 1 R t = q R1RtR1Rt ∆t 1 =∆t Temperature drop through a layer

28 Mehta, Scarborough, and Armpriest : Building Construction: Principles, Materials, and Systems © 2008 Pearson Education, Upper Saddle River, NJ 07458. All Rights Reserved. Temperature drop across a layer is proportional to the R-value of that layer Temperature drop across the entire assembly ∆t 1 + ∆t 2 + ∆t 3 = 60ºF 2 15 ∆t 1 =(60) = 8ºF ∆t 2 = 48ºF ∆t 3 = 4ºF

29 Mehta, Scarborough, and Armpriest : Building Construction: Principles, Materials, and Systems © 2008 Pearson Education, Upper Saddle River, NJ 07458. All Rights Reserved. Line of temperature gradient Assume: RH outside air = 80% RH inside air = 50% Assembly is vapor permeable Dew (point per Table 1) = 50º

30 Mehta, Scarborough, and Armpriest : Building Construction: Principles, Materials, and Systems © 2008 Pearson Education, Upper Saddle River, NJ 07458. All Rights Reserved. Problem: Determine location of dew point in brick veneer wall assembly Assume inside and outside temperatures are 70º and 10º respectively, and RH of inside air = 45% ElementR-Value Inside Surface Resistance 0.7 1/2 in. thick gypsum board 0.5(0.60) = 0.30 3 1/2 in. thick fiberglass insulation 3.5(3.5) = 12.25 0.5 in. thick plywood 0.5(0.9) = 0.45 2 in. wide airspace1.0 3 5/8 in. thick brick veneer 3.625(0.2) = 0.73 Outside surface resistance 0.2

31 Mehta, Scarborough, and Armpriest : Building Construction: Principles, Materials, and Systems © 2008 Pearson Education, Upper Saddle River, NJ 07458. All Rights Reserved. Solution: approximately midway through insulation layer

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