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

Water

Water

The WELL Building Standard for Water promotes safe and clean water through the implementation of proper filtration techniques and regular testing in order for building occupants to receive optimal quality of water for various uses.

Background

Clean drinking water is a prerequisite for optimal health. More than two-thirds of the human body is comprised of water, a major component of cells, and the medium for the transport of nutrients and waste throughout the body. In addition, water helps to regulate the internal body temperature and serves as a shock absorber for the brain and spinal cord. The Institute of Medicine (IOM) recommends that women consume approximately 2.7 liters [91 oz] and men 3.7 liters [125 oz] of water per day (from all sources including drinking water, other beverages and food). These amounts are appropriate to offset what leaves the body through respiration, perspiration and excretion, aiding in the removal of toxins, byproducts and other waste.

Drinking water contamination is a major public health issue. Many people receive water that has been exposed to potentially harmful levels of biological, chemical and mineral contaminants. The World Health Organization (WHO) reports that almost one billion people lack access to safe drinking water worldwide, and two million annual deaths are attributable to unsafe water, sanitation and hygiene.

The source of water contamination can sometimes be traced back to industry and its related processes. Contaminants like lead, arsenic, glyphosate, atrazine and microbes that are naturally occurring or inadvertently introduced into the water can pose serious health threats. However, treatment and distribution systems meant to keep our drinking water safe are also potential sources of contamination. For example, chlorine and chloramine which are commonly added to water to kill pathogenic organisms can lead to the formation of disinfectant byproducts such as trihalomethanes (THMs) and haloacetic acids (HAAs), as well as N-nitrosodimethylamine (NDMA), which may lead to cancer and other adverse health effects when exposure occurs at levels above the EPA standards. Finally, pharmaceuticals, personal care products (PPCPs) and other emerging contaminants are increasingly finding their way into our water supplies, with largely unknown health effects.

The quality of the U.S. surface water relies largely on The Clean Water Act of 1974. The U.S. Environmental Protection Agency (EPA) works to implement this Act and others (namely, the Safe Drinking Water Act), and publishes threshold concentration standards for water contaminants. These limits are set based on the likelihood of the development of cancer and other adverse health effects after long-term exposure to the specified contaminants. Nevertheless, drinking water contamination is a persistent problem. In a 2009 report, the EPA warned that “threats to drinking water are increasing,” adding that “we can no longer take our drinking water for granted.”

While taste and aesthetic preferences lead many people to drink bottled water, consumption of bottled water is not without its drawbacks. Overreliance on bottled water has environmental implications, but even putting aside those concerns, the quality of bottled water is subject to degradation. In one study, levels of antimony in 48 brands of bottled water from 11 European countries increased by 90% after 6 months of storage due to antimony leaching from polyethylene terephthalate bottles (PET(E) bottles, designated as recyclable “1”).

The same standards for quality are typically applied across all uses of potable water. This can result in a significant waste of resources, since each use does not require the same level of protection. The WELL Building Standard® seeks to simultaneously preserve this resource while enhancing its quality for human health in the context of different uses. Therefore, WELL requires a broad initial assessment to evaluate a building’s water source. From there, filtration can be installed to meet the thresholds required for each use. Buildings can continue to perform periodic testing to maintain quality water over time.

30 Fundamental water quality

Core & Shell New & Existing Interiors New & Existing Buildings
1: Sediment P P P
2: Microorganisms P P P

31 Inorganic contaminants

Core & Shell New & Existing Interiors New & Existing Buildings
1: Dissolved Metals P P P

32 Organic contaminants

Core & Shell New & Existing Interiors New & Existing Buildings
1: Organic Pollutants P P P

33 Agricultural contaminants

Core & Shell New & Existing Interiors New & Existing Buildings
1: Herbicides and Pesticides P P P
2: Fertilizers P P P

34 Public water additives

Core & Shell New & Existing Interiors New & Existing Buildings
1: Disinfectants P P P
2: Disinfectant Byproducts P P P
3: Fluoride P P P

35 Periodic water quality testing

Core & Shell New & Existing Interiors New & Existing Buildings
1: Quarterly Testing - O O
2: Water Data Record Keeping and Response - O O

36 Water treatment

Core & Shell New & Existing Interiors New & Existing Buildings
1: Organic Chemical Removal O O O
2: Sediment Filter O O O
3: Microbial Elimination O O O
4: Water Quality Maintenance O O O
5: Legionella Control O O O

37 Drinking water promotion

Core & Shell New & Existing Interiors New & Existing Buildings
1: Drinking Water Taste Properties O O O
2: Drinking Water Access - O O
3: Water Dispenser Maintenance - O O

30 Fundamental water quality

Commercial Kitchen Education Multifamily Residential Restaurant Retail
1: Sediment P P P P P
2: Microorganisms P P P P P

31 Inorganic contaminants

Commercial Kitchen Education Multifamily Residential Restaurant Retail
1: Dissolved Metals P P P P P

32 Organic contaminants

Commercial Kitchen Education Multifamily Residential Restaurant Retail
1: Organic Pollutants P P P P P

33 Agricultural contaminants

Commercial Kitchen Education Multifamily Residential Restaurant Retail
1: Herbicides and Pesticides P P P P P
2: Fertilizers P P P P P

34 Public water additives

Commercial Kitchen Education Multifamily Residential Restaurant Retail
1: Disinfectants P P P P P
2: Disinfectant Byproducts P P P P P
3: Fluoride P P P P P

35 Periodic water quality testing

Commercial Kitchen Education Multifamily Residential Restaurant Retail
1: Quarterly Testing O O O O O
2: Water Data Record Keeping and Response O O O O O

36 Water treatment

Commercial Kitchen Education Multifamily Residential Restaurant Retail
1: Organic Chemical Removal O O O O O
2: Sediment Filter O O O O O
3: Microbial Elimination O O O O O
4: Water Quality Maintenance O O O O O
5: Legionella Control O O O O O

37 Drinking water promotion

Commercial Kitchen Education Multifamily Residential Restaurant Retail
1: Drinking Water Taste Properties O O O O O
2: Drinking Water Access - O - O O
3: Water Dispenser Maintenance O O - O O
4: Outdoor Drinking Water Access - O - - -