- Benefits of Certification
- Why Work With NSF?
- Certification Process
If you manufacture, sell or distribute water treatment or distribution products in North America, your products are required to comply with NSF/ANSI 61: Drinking Water System Components – Health Effects by most governmental agencies that regulate drinking water supplies. Developed by a team of scientists, industry experts and key industry stakeholders, NSF/ANSI 61 sets health effects criteria for many water system components including:
- Protective barrier materials (cements, paints, coatings)
- Joining and sealing materials (gaskets, adhesives, lubricants)
- Mechanical devices (water meters, valves, filters)
- Pipes and related products (pipe, hose, fittings)
- Plumbing devices (faucets, drinking fountains)
- Process media (filter media, ion exchange resins)
- Non-metallic potable water materials
Benefits of Certification
Certification to NSF/ANSI 61 ensures that your product meets the regulatory requirements for the U.S. and Canada, and it can often meet or fulfill the testing requirements for many other countries as well. Market leaders strive to attain NSF certification as a mark of distinction that provides their customers with assurance that their product is safe for use in drinking water.
NSF/ANSI 61 testing covers all products with drinking water contact from source to tap, and determines what contaminants may migrate or leach from your product into drinking water. It also confirms if they are below the maximum levels allowed to be considered safe.
Certification also allows your company to:
- List your product in our online directory of certified drinking water system components
- Use the NSF certification mark on your products and in your promotional materials
Why Work With NSF?
The NSF mark, well respected by public health officials and drinking water utilities, is recognized as a symbol of product quality and integrity. Our responsive, personalized service quickly guides your products through the certification process, ensuring that they get to market on time and on budget. We offer product bracketing services wherever possible to help keep costs down, and we provide pricing up front so there are no hidden surprises down the road.
NSF is accredited by the Standards Council of Canada (SCC) and NSF listings satisfy the requirements of the Canadian National Plumbing Code, U.S. Model Codes and the Uniform Plumbing Code (UPC).
We distinguish ourselves due to our thorough product evaluation, but our certification process is simple and efficient. We assign you a dedicated NSF project manager as a single point of contact to guide you through the certification process and oversee your certification project every step of the way.
Seven Simple Steps to Certification:
- Your company submits an application.
- You provide product formulation, toxicology and product use information.
- Our toxicology department reviews formulations.
- We perform a plant audit and sample collection.
- Our laboratory conducts testing.
- We complete a final toxicology evaluation.
- We grant NSF certification for compliant products and you can use the NSF mark on products, packaging and marketing materials.
Our experts can help you reduce overall costs and expedite your time to market by bundling services and reducing the number of contracted service providers and facility audits.
- 3 weeks ago
ANN ARBOR, Mich. and ATLANTA, Ga. – Global public health organization NSF International and ASHRAE have signed a memorandum of...
- 4 weeks ago
ANN ARBOR, Mich. - NSF International has published an easy-to-use consumer guide to water filters that have been tested and...
- 3 months ago
ANN ARBOR, Mich. and BEIJING, China – Global public health organization NSF International and the Direct Drinking Water Times, one...
- Wednesday, October 12, 2016
- 8:30am - 5:00pm Eastern Time
- Ann Arbor, Michigan, United States
What is NSF/ANSI 61?
NSF/ANSI 61: Drinking Water System Components was published in 1988 to establish minimum requirements for the control of potential adverse human health effects from products that contact drinking water.
NSF/ANSI 61 includes criteria for testing and evaluating products to ensure they do not leach contaminants into the water that would be a health concern. These contaminants include those regulated by the U.S. Environmental Protection Agency (EPA) and Health Canada, as well as any other non-regulated compounds that may be of concern.
What products are covered under NSF/ANSI 61?
- Pipes and related products (including pipe, hose, fittings)
- Protective and barrier materials (including cements/coatings)
- Joining and sealing materials (including gaskets, adhesives, lubricants)
- Process media (including carbon, sand, zeolite, ion exchange media)
- Mechanical devices (including water meters, in-line valves, filters, process equipment)
- Mechanical plumbing devices (faucets, drinking fountains, and components)
- Potable water materials (non-metallic materials)
What is involved in the NSF/ANSI 61 certification process?
The NSF certification process has seven basic steps:
- Application - NSF/ANSI 61 requires a disclosure by the manufacturer of all water contact materials in the product and a disclosure by the manufacturer’s material suppliers of all chemical ingredients in the materials.
- Formulation, toxicology and product use information - Client and suppliers complete and submit NSF’s Product Information Form. This provides formulation, toxicology and product use information.
- NSF formulation review - NSF toxicologists perform a formulation review for each water contact material to determine any possible ingredients, contaminants, or reaction by-products that may potentially leach from the material into drinking water. This formulation review then determines the battery of chemical analyses that will be performed on a particular material.
- Plant audit and sample collection - NSF then conducts an inspection of the production facility to verify the product formulation and production process and to ensure adequate quality control procedures are in place to prevent the use of unauthorized materials. Product samples are collected during the inspection and sent to NSF laboratories to be tested to the appropriate exposure protocol of NSF/ANSI 61.
- Laboratory testing - Devices or materials are evaluated according to the exposure and analysis methods in Annex B of NSF/ANSI 61. Most products undergo a 3-week exposure process where the products are exposed to various formulated waters designed to extract specific types of contaminants. Contaminant concentrations are determined from chemical analyses of the exposure water samples.
- Toxicology evaluation - These contaminant concentrations are then evaluated by a toxicologist to the pass/fail criteria in Annex D and E of NSF/ANSI 61. Products that meet the requirements of the standard are then certified and appear in the NSF listings. If products fail to meet the requirements of the standard, the manufacturer may identify the source of the failure and resubmit a reformulated product for certification.
- Certification granted
Follow-up program - Once products are certified and listed by NSF they are inspected and reviewed on an annual basis.
Listed production facilities are then subjected to unannounced annual inspections by NSF auditors to ensure that certified products are made according to the authorized formulations and processes. Products are collected on a routine basis (typically once annually) for retesting.
Occasionally, certified products will fail an annual retest. When this happens, NSF immediately notifies the manufacturer. NSF requires the manufacturer to stop shipment of noncompliant product and to fully investigate the cause of the failure. An NSF field auditor inspects the facility to ensure the manufacturer has taken these steps. If the manufacturer is able to identify and correct the cause of the failure, they may resubmit the product for certification. If the reformulated product meets the requirements of NSF/ANSI 61, the manufacturer may again mark and sell the products as NSF certified.
How was NSF/ANSI 61 developed? How is it maintained?
NSF/ANSI 61 is overseen by the NSF Drinking Water Additives Joint Committee. This committee has equal representation from public health regulatory members, product manufacturer members and product user representatives. Any proposal to revise the standard is typically assigned to a task group composed of joint committee members and external experts. Task group members are assigned by the chair of the joint committee.
One standing group is the Health Advisory Board. This group consists of toxicologists from USEPA, Health Canada, state and provincial agencies, as well as toxicologists from industry, and private consulting firms. This group is responsible for reviewing and approving all allowable contaminant concentrations that are published in NSF/ANSI 61.
Any revision that is proposed by a task group must receive majority approval from the joint committee. Any negative ballots from the joint committee must be circulated to all committee members and adjudicated, according to the guidelines of the American National Standards Institute (ANSI).
Once a revision is approved by the joint committee, the proposal passes to the NSF Council of Public Health Consultants, which consists of regulatory officials from public health agencies across North America.
Revisions to NSF/ANSI 61 are also circulated for public comment and any concerns addressed through the guidelines of the American National Standards Institute. ANSI gives final approval to each revision of the standard.
Anyone may submit a proposed change to the standard, as well as other issues for discussion by the joint committee, by submitting an issue paper to the chair of the joint committee. All meetings of the joint committee are open and may be attended by requesting an invitation from the secretary of the joint committee. Contact firstname.lastname@example.org for further information.
Do certified products retain their NSF/ANSI 61 certification if they are processed or fabricated and resold?
Many companies purchase NSF/ANSI 61 certified products which are then reprocessed in some manner and resold. These processed or fabricated products do not retain their NSF/ANSI 61 certification unless the facility has an official NSF/ANSI 61 listing for the processed or fabricated product.
Example: Fabricated pipe
A fabrication facility may purchase NSF/ANSI 61 certified ductile iron pipe and fabricate grooved or flanged pipe and resell the product to a contractor or water utility. The product only retains the NSF/ANSI 61 Certification if the fabrication facility has an NSF/ANSI 61 listing for the grooved or flanged pipe. The certification denotes that the fabrication facility is inspected annually and has products periodically retested to confirm the fact that it is using NSF 61 certified pipe, that it has controlled sources of materials used for fittings and welding, and also ensure that any additional coating materials or processing aids are not going to add harmful contaminants to drinking water.
Example: Regenerated and reactivated media
Several process media companies now offer to take spent media from a water utility and regenerate or reactivate the media and then resell it to the water utility at a much lower cost than virgin media. How does the utility know that the media it is receiving back is the same media that they originally sent to the regeneration facility? How can the water utility be assured that the regenerated media conforms to NSF/ANSI 61 and will not add harmful contaminants to drinking water? NSF/ANSI 61 contains specific requirements for products and facilities that regenerate and reactivate media. Regenerated or reactivated media is not NSF/ANSI 61 certified unless the regeneration or reactivation facility has an NSF/ANSI 61 listing for the products.
Example: Repackaged process media
The same rule would apply to companies that are simply repackaging process media or other products. Even if a company is repackaging NSF/ANSI 61 certified activated carbon, the NSF/ANSI 61 certification is not maintained if the repackaged product has not been separately certified for the repackaging company. How can a utility be sure that a company is only repackaging NSF/ANSI 61 media and not substituting or mixing with some lower cost material that is not certified? Contamination control is another concern addressed by third-party certification. If the repackaging facility has been separately certified then the water utility can be reassured that the facility is receiving unannounced annual inspections from NSF to verify the sources and certification of the media that is being packaged.
While a reprocessed or fabricated NSF/ANSI 61 certified product does not retain its certification, it is still beneficial for manufacturers to choose NSF/ANSI 61 certified materials for their end product. Choosing NSF/ANSI 61 certified components or materials will save your company time and expenses when undergoing certification for your product.
What is stainless steel?
Stainless steel, compared to typical steel, is a general class of metal alloys that contains lower levels of iron and higher levels of chromium, vanadium, etc. The actual percent of the various elements yield different physical properties.
Why do people use stainless steel products with drinking water systems?
In general, stainless steels are quite hard, tough and corrosion resistant in comparison to some other materials used in drinking water applications.
Are all stainless steel products compliant with NSF/ANSI 61?
No. Only products that are certified to NSF/ANSI 61 can be assumed to meet the requirements of the standard. Certification to NSF/ANSI 61 includes product testing and production location auditing to ensure ongoing compliance with the health based requirements of NSF/ANSI 61. This includes testing products on an annual basis, by exposing them to different formulated waters (typically at pH 5, pH 8 and pH 10) and testing for regulated metals such as antimony, arsenic, barium, cadmium, chromium (including chromium VI), copper, lead, mercury, selenium, thallium, and nickel, as well as any other inorganic and organic leachate concerns that may derive from cutting oils, lubricants, process aids, welding, machining, and other forming by-products. The certification process also includes annual unannounced inspections of the manufacturing facility to verify that the manufacturer is making the product using the same raw materials, material suppliers and production process as the products that are tested.