Small Drinking Water Systems Research and Development

Addressing Challenges and Providing Solutions for Small Communities

&EPA

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www.epa.gov/research

science in ACTION

INNOVATIVE RESEARCH FOR A SUSTAINABLE FUTURE

Background

Iri the United States (including territories), there are over
145,000 active public water systems. Of these, 97% are
considered small systems under the Safe Drinking Water
Act, meaning they serve 10,000 or fewer people. While
many of these small systems consistently provide safe,
reliable drinking water to their customers, many face a
number of challenges in their ability to achieve and
maintain system sustainability. Some of these include
high operator turnover, aging infrastructure, and lack of
financial resources.

How EPA Research is Helping Small Systems

Oftentimes, small communities and their state primacy
agencies are reluctant to use novel approaches to
drinking water challenges because they may have hidden
costs or result in unforeseen health consequences for
the community. EPA's Office of Research and
Development is helping to build confidence in innovative
treatment technologies and approaches by conducting
research that small communities, including tribal
communities, and state primacy agencies can rely on to
successfully remove contaminants of interest, without
compromising the overall sustainability of their system.

Innovative Research

Contaminants of Emerging Concern (CECs)
Increasingly, small systems face changes in the quality of
their source waters and aging treatment and distribution
system infrastructure. Factors such as decreasing
available water sources, agricultural runoff, harmful algal
blooms, and industrial land utilization increase the
probability that CECs will remain after treatment, ending
up in consumers' taps. This is likely to disproportionately
affect small drinking water systems due to, among other
factors, limited resources and treatment options. EPA's
work in identifying and quantifying water treatment
challenges for these systems is an important step
towards mitigating present and future risks from CECs,
such as algal toxins, pesticides, personal care products
pharmaceuticals, and endocrine disrupting compounds.

U.S. Environmental Protection Agency
Office of Research and Development

EPA research on UV disinfection technologies at a small
community in Puerto Rico. The research includes citizen
science efforts to help communities understand drinking
water treatment and address issues of concern to them.

Advanced Disinfection Technologies
Drinking water can be a potential source of waterborne
illnesses from contamination of source waters or
contamination of treated water as it moves through the
distribution system to consumer taps. The growth of
specific pathogens associated with larger microbial
communities, known as biofilms, can occur on drinking
water pipe surfaces. Current treatments include the use
of disinfectants, which can have the harmful side effect
of producing disinfection byproducts (DBPs). A critical
challenge for PWS operators is to attain the multiple
goals of reduction of DBPs while maintaining microbial
and chemical water quality in distributed drinking water.
EPA's research is adding to our knowledge of the effects
of UV treatment, filtration, and chlorine and
monochloramine disinfectants on the microbial
communities in distribution systems.

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EPA's disinfection research is also focusing on sensing,
sampling, and analytical techniques to examine biofilm
development, pathogens, nitrification, and exposure to
pathogens. The goal is to develop novel and innovative
ways to provide actionable data useful for small system
operators in optimizing their activities and
understanding exposure risks.

Innovative Inorganic Contaminants Treatment
EPA provides a research and development program on
cost-effective technologies for small systems to help
reduce their compliance costs. From nationwide
treatment technology demonstration programs, to
current research using biological treatment, EPA is
working to provide information and treatment
approaches to small systems to help them manage
inorganic contaminants—such as ammonia, arsenic,
nitrate and fluoride— in their water supplies. In addition,
research results will assist with revisions to drinking
water regulations and can be used by the states for
communicating novel and effective treatment
technologies to their systems.

A pilot system designed, built, and installed by EPA staff
in a small community in Iowa demonstrated the ability
to effectively remove ammonia and iron from the
community's source water, while keeping nitrite and
nitrate levels below their maximum contaminant levels
in the treated water. As part of a federal HUD grant, the
full-scale water treatment plant based on the pilot
system was completed, and the community now has a
functioning public water system. (Photo: EPA research
engineer, Darren Lytle, at the full-scale plant in Iowa).

National Research Centers

EPA has funded two National Research Centers for Small
Drinking Water Systems: the Design of Risk Reducing,
Innovative Implementable Small System Knowledge
Center (DeRISK) and the Water Innovation Network for
Sustainable Small Systems (WINSSS) Centers, as part of
the Science to Achieve Results program. They will
develop and demonstrate innovative technologies to
better reduce, control and eliminate groups of chemical
or microbial contaminants in small water systems. They
will leverage efforts with stakeholders and researchers
involved in facilitating small drinking water system
sustainability. Investment in these projects will enhance
the resiliency of small systems and improve water
quality, thereby protecting public health.

Development of Models and Tools
EPA researchers have developed models and tools to
help small systems with understanding treatment and
selecting innovative treatment technologies, estimate
costs for a national regulation, and provide individual
water treatment facilities with tools to estimate costs for
different compliance options. EPA will continue to
improve existing models and tools and develop new ones
that are relevant to the needs of small systems.

Workshops, Webinars, and Workgroups
State and local officials across the Nation are faced with
effectively communicating information and overseeing
training for small system owners and operators with a
wide range of expertise. To ensure these systems are in
compliance with the SDWA, these officials need to stay
current on treatment alternatives, regulations, health
implications, and emerging contaminants. EPA is
committed to helping small systems deliver high quality
drinking water to their customers by providing
information, training, and technical assistance.

Additional Information

EPA's small systems research, including links to the
National Research Centers, models, tools, workshops,
and webinars: epa.gov/water-research/small-drinking-
water-svstems-research.

Contacts

Michelle Latham, latham.michelleja)epa.gov
Christopher Impellitteri, impellitteri.christopher(5) epa.gov

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U.S. Environmental Protection Agency
Office of Research and Development

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