This is a legacy version of the WELL Building Standard. Please check the latest version here.

Moisture management

Good design principles and strategies to mitigate water damage help to preserve good indoor air quality. Moisture can enter buildings and building assemblies in four ways: bulk water, capillary water, air-transported moisture and vapor diffusion. In addition to preventing wetting from all four channels, managing moisture is also about promoting drying potential.

Part 1: Exterior Liquid Water Management

A point-by-point narrative describes how liquid water from outside the building is addressed, responding to the nature and intensity of wetting based on the project's site and climate, and includes the following leading concerns:

a.176 Site drainage, including the impact of any site irrigation.
b.176 The local water table.
c.176 Building penetrations (especially windows and plumbing/electrical/mechanical penetrations).
d.176 Porous building materials connected to exterior sources of liquid water.
Part 2: Interior Liquid Water Management

A point-by-point narrative describes how liquid water from interior sources is addressed, including these leading concerns:

a.176 Plumbing leaks.
b.176 "Hard-piped" plumbing appliances (appliances such as clothes washers exposed to building water pressure even when not in use).
c.176 Porous building materials connected to interior sources of liquid water.
d.176 New building materials with “built-in” high moisture content or building materials wetted during construction but now on the inside of the building.
Part 3: Condensation Management

A point-by-point narrative describes how condensation is addressed, including these leading concerns:

a.176 High interior relative humidity levels, particularly in susceptible areas like bath and laundry rooms and below-grade spaces.
b.176 Air leakage which could wet either exposed interior materials or interstitially “hidden” materials.
c.176 Cooler surfaces, such as basement or slab-on-grade floors, or closets/cabinets on exterior walls.
d.176 Oversized air conditioning units.
Part 4: Material Selection and Protection

A point-by-point narrative describes how moisture-tolerant materials have been selected and/or moisture-sensitive materials (MSP) are being protected, considering these leading concerns:

a.176 Exposed entryways and glazing.
b.176 Porous cladding materials.
c.176 Finished floors in potentially damp or wet rooms such as basements, bathrooms and kitchens.
d.176 Interior sheathing in damp or wet rooms.
e.1 Sealing and storing of absorptive materials during construction.
Respiratory
Immune
Integumentary

Applicability Matrix

Core & Shell New & Existing Buildings New & Existing Interiors
Part 1: Exterior Liquid Water Management P P -
Part 2: Interior Liquid Water Management P P -
Part 3: Condensation Management P P -
Part 4: Material Selection and Protection P P -
Commercial Kitchen Education Multifamily Residential Restaurant Retail
Part 1: Exterior Liquid Water Management P P P P O
Part 2: Interior Liquid Water Management P P P P O
Part 3: Condensation Management P P P P O
Part 4: Material Selection and Protection P P P P O

Verification Methods Matrix

Letters of Assurance Annotated Documents On-Site Checks
Part 1: Exterior Liquid Water Management Professional Narrative
Part 2: Interior Liquid Water Management Professional Narrative
Part 3: Condensation Management Professional Narrative
Part 4: Material Selection and Protection Professional Narrative
1

U.S. Green Building Council. LEED v4: Reference Guide for Building Design and Construction. Washington D.C.: U.S. Green Building Council; 2013: 37, 43-44, 541-552, 567, 605, 623, 645-53, 658-61, 682-3, 685-6, 723-4.

12.4.e

USGBC's LEED v4 BD+C EQ Credit: Construction Indoor Air Quality Management Plan requires that absorptive materials stored on-site and installed are protected from moisture damage.

176

U.S. Environmental Protection Agency. Moisture Control Guidance for Building Design, Construction and Maintenance. Washington, DC: U.S. Environmental Protection Agency; Dec 2013. EPA 402-F-13053.

12.1.b

EPA 402-F-13053 notes to design buildings such that the interior floor grade is above the local water table.

12.1.c

EPA 402-F-13053 notes to design exterior walls to manage rainwater.

12.1.a

EPA 402-F-13053 notes that effectively controlling water intrusion requires directing drain rain and irrigation water away frm the building.

12.1.d

EPA 402-F-13053 advises to consider key elements of moisture behavior, including transport mechanisms such as moisture wicking through porous materials.

12.2.a

EPA 402-F-13053 notes that leaks in pipes or tanks in the plumbing system can release water.

12.2.c

EPA 402-F-13053 advises to consider key elements of moisture behavior, including transport mechanisms such as moisture wicking through porous materials.

12.2.b

EPA 402-F-13053 notes that moisture problems include leaks in pressurized pipes and vessels in appliances that use water.

12.2.d

EPA 402-F-13053 notes to "avoid enclosing wet materials in new construction by protecting moisture-sensitive and porous materials" as part of a comprehensive strategy to control liquid water movement.

12.3.d

EPA 402-F-13053 notes that "oversized cooling systems do not solve humidity control problems—instead, they cause them."

12.3.b

EPA 402-F-13053 notes that air that infiltrates the building through air leaks represents one of the largest sources of humidity.

12.3.c

EPA 402-F-13053 notes that condensation may be caused by "excessively high dew point, unusually cold surfaces, or a combination of the two."

12.3.a

EPA 402-F-13053 notes that in low-rise buildings, damp basements and crawlspaces may add water vapor to the air.

12.4.d

EPA 402-F-13053 advises to use low-permeability insulating sheathing and interior finishes.

12.4.c

EPA 402-F-13053 advises to use materials able to tolerate repeated wetting and drying in wet areas.

12.4.a

EPA 402-F-13053 advises to use materials able to tolerate repeated wetting and drying in wet areas. The document also notes that particularly in buildings in cold climates, it is important to consider the condensation potential of glazing designs.

12.4.b

EPA 402-F-13053 notes that exterior cladding and other measures can intercept most of the rain water and direct it away from the building.