The Denver Direct Potable Water Reuse Demonstration Project was an initiative to evaluate the feasibility of using treated wastewater, including sewer water, as a source of drinking water in

Denver Denver ( ) is a List of municipalities in Colorado#Consolidated city and county, consolidated city and county, the List of capitals in the United States, capital and List of municipalities in Colorado, most populous city of the U.S. state of ...

, Colorado. The intent was to demonstrate that the treated water was of sufficient quality to be piped directly into the Denver drinking water system. Conducted between 1979 and 1990, this $30 million project was managed and operated by

Denver Water Denver Water is a water utility that operates as a Government agency, public agency serving the City and County of Denver, Colorado, and a portion of its surrounding suburbs. Established in 1918, the utility is funded by water rates and new tap ...

, the city's primary water utility, and was partially funded by the United States

Environmental Protection Agency Environmental Protection Agency may refer to the following government organizations: * Environmental Protection Agency (Queensland), Australia * Environmental Protection Agency (Ghana) * Environmental Protection Agency (Ireland) * Environmenta ...

(EPA). The project's primary objectives were to assess the safety, quality, technical feasibility, and public and regulatory acceptance of direct

potable water Drinking water or potable water is water that is safe for ingestion, either when drunk directly in liquid form or consumed indirectly through food preparation. It is often (but not always) supplied through taps, in which case it is also calle ...

reuse. The central feature of the project was a 1-million-gallon-per-day (mgd) treatment plant, based on advanced water treatment

unit operation In chemical engineering and related fields, a unit operation is a basic step in a process. Unit operations involve a physical change or chemical transformation such as separation, crystallization, evaporation, filtration, polymerization, isomeriza ...

s, continuously producing treated water evaluated for safe production of water for direct consumption. Safety and efficacy as well as technical and economic viability were also evaluated as was public awareness and outreach. By the end of the project, all of the objectives were fully satisfied, indicating likely viability of direct potable water reuse.

Historical justification

In the 1970s, while the water resources of the Denver Water Department (Denver Water) at the time were sufficient to meet the needs of its service area, anticipated growth in demand threatened to surpass the department’s available supplies. To address this concern, Denver Water explored several means of expanding its supply, including the use of wastewater effluent, conservation efforts, and large-scale storage or diversion projects. New storage and diversion projects located far from the

Denver metropolitan area Denver is the central city of a conurbation region in the U.S. state of Colorado. The conurbation includes one continuous region consisting of the six central counties of Adams, Arapahoe, Broomfield, Denver, Douglas, and Jefferson. The Denver regi ...

carried an unacceptable cost, and environmental concerns raised doubts about the viability of large-scale diversion. As a result, these options were dismissed.Metropolitan Denver Water Supply Environmental Impact Statement, U.S. Army Corps of Engineers, Omaha District (1988). Conservation, while acceptable to the public, was an unproven alternative. Denver Water had already launched an aggressive conservation campaign, with uncertain likelihood of satisfying the anticipated water needs of the Denver metropolitan area."How Water Professionals Look at Conservation." Paper presented at the Colorado Water Engineering and Management Conference, Fort Collins, February 28, 1989. Colorado water law required that wastewater be returned to the river from which it originated after one beneficial use. Trans-mountain water, which is diverted from one river basin to another, is exempt from this requirement.Legal and Institutional Considerations in Water Reuse." In Water Reuse, ed. J. Middlebrook, Ann Arbor Science Publishers, 1982. As a result, Denver had an estimated 100 million gallons per day (mgd) of water available for reuse. After considering various water-use options, such as exchanging wastewater effluent for upstream raw water, industrial reclamation, and non-potable reuse, Denver Water determined that direct potable reuse (DPR) was the solution that could best address the projected supply shortfall. Additionally, projections indicated that by the early 2000s, treated wastewater effluent for DPR would be economically competitive with developing new conventional water sources. However, significant research was required before this untested alternative could be implemented.Work,S.W., Rothberg, M.R., and Miller, K.J., Denver’s potable Reuse Project: Pathway to Public Acceptance. JAWWA, 72:8:435 (1980).

Project plan

After initially being rejected three years earlier, Denver Water and the EPA signed a cooperative agreement in 1979. This grant provided US $7 million for the project, with the remaining US $23 million provided by Denver Water.EPA Cooperative Agreement CS- 806821-01-4, Carl Brunner, Project Officer, U.S. EPA- W.E.R.L., 26 West Martin Luther King, Cincinnati, Ohio. Specific objectives of the project in the finalized agreement were: Establish product water safety; Demonstrate process reliability; Improve public awareness of direct potable water reuse; Increase regulatory agency awareness through technical reports and scientific publications; and Develop data for full-scale implementation estimates. The project addressed several key areas of concern, such as product quality,

public health Public health is "the science and art of preventing disease, prolonging life and promoting health through the organized efforts and informed choices of society, organizations, public and private, communities and individuals". Analyzing the de ...

, economic viability, and the technological feasibility of treating wastewater to drinking water standards. One of the most significant aspects of the demonstration was a two-year animal health effects study, which involved the use of treated water to evaluate its safety. This study specifically focused on reproductive health and the potential long-term impacts of consuming treated wastewater on multiple generations of rats and mice. Following the provisions of the cooperative agreement, Denver Water organized a committee of twenty-three experts to review the project plans and advise the staff on technical and scientific issues. Initially, these advisors were divided into separate groups for plant design and operation, water quality analysis, and health effects. Later, these groups were merged into a single project advisory committee which served for the duration of the project.

Concept and design

After approximately 10 years of small-scale experimentation and pilot testing,Linstedt, K.D., and Bennett, E.R., Evaluation of Treatment for Urban Wastewater Reuse. USEPA, EPA-R2-73-122 (1973). in 1981 construction started on the 1 million gallon per day Potable Water Reuse Demonstration Plant, which became operational in 1985. The raw water supply for the reuse plant was unchlorinated secondary effluent from the metropolitan Denver wastewater treatment facility, which met all requirements for discharge to the

South Platte River The South Platte River is one of the two principal tributaries of the Platte River. Flowing through the U.S. states of Colorado and Nebraska, it is itself a major river of the American Midwestern United States, Midwest and the American Sou ...

. These stream standards focus on protecting aquatic life and are not for drinking water. A 1 million gallon per day flow stream was intercepted prior to chlorination, to avoid byproducts formed by its application, and diverted to the Potable Water Reuse Demonstration Plant where it was the source for further treatment.Regulation No. 38 - Classifications and Numeric Standards
Colorado Department of Public Health and Environment, Water Quality Control Commission, Colorado Code of Regulations. The treatment process included, successively: high pH lime treatment, single or two-stage recarbonation, pressure filtration, selective ion exchange for ammonia removal, two stages of activated carbon adsorption, ozonation, reverse osmosis, air stripping, and chlorine dioxide disinfection. Side-stream processes included a fluidized bed carbon reactivation furnace, vacuum sludge filtration, and a selective ion exchange regenerant recovery system. The plant design adopted a multiple safety barrier approach so as to increase process reliability by using a combination of unit processes, ensuring that no single process was solely responsible for the removal of any specific single contaminant.Medcalf and Eddy inc.
Wastewater Engineering Treatment and Reuse
McGraw-hill, 2003.

Staffing

Staffing requirements were part of the project goal of providing data for full-scale implementation. For this reason, the plant operations and maintenance personnel mirrored Denver Water’s traditional water treatment plants both in number and qualifications. During operations, two operators worked on 12-hour shifts with six relief operators performing maintenance duties and filling in for absences. All operators were state certified for water and wastewater operations, including certification at the highest level for lead operators. While staffing was substantially complete by May 1983, full operation started in October 1985 with staff training continuing in the interim.Facility Classification, Colorado Department of Health and Environment.
/ref>Colorado Facility Operators Certification Board

Final configuration

During the performance testing phase of the project (1985-1988), the plant configuration was modified several times in order to examine various unit processes and treatment sequences. These modifications enabled elimination of unreliable or unnecessary treatment steps without compromising water quality. The refinements resulted in the processing plant configuration that was used for the animal testing portion of the project. Operational steps in the process were: high pH lime clarification, recarbonation, granular media filtration, UV, activated carbon adsorption, reverse osmosis or ultrafiltration, air stripping, ozone disinfection, chloramine residual disinfection.

Quality evaluation

Water quality

Water contaminants measured during the testing portion of the project included

organic Organic may refer to: * Organic, of or relating to an organism, a living entity * Organic, of or relating to an anatomical organ Chemistry * Organic matter, matter that has come from a once-living organism, is capable of decay or is the product ...

and

inorganic An inorganic compound is typically a chemical compound that lacks carbon–hydrogen bonds⁠that is, a compound that is not an organic compound. The study of inorganic compounds is a subfield of chemistry known as '' inorganic chemistry''. Inor ...

chemicals, radiological

isotope Isotopes are distinct nuclear species (or ''nuclides'') of the same chemical element. They have the same atomic number (number of protons in their Atomic nucleus, nuclei) and position in the periodic table (and hence belong to the same chemica ...

s, and

microorganism A microorganism, or microbe, is an organism of microscopic scale, microscopic size, which may exist in its unicellular organism, single-celled form or as a Colony (biology)#Microbial colonies, colony of cells. The possible existence of unseen ...

s such as

bacteria Bacteria (; : bacterium) are ubiquitous, mostly free-living organisms often consisting of one Cell (biology), biological cell. They constitute a large domain (biology), domain of Prokaryote, prokaryotic microorganisms. Typically a few micr ...

and

viruses A virus is a submicroscopic infectious agent that replicates only inside the living cells of an organism. Viruses infect all life forms, from animals and plants to microorganisms, including bacteria and archaea. Viruses are found in almo ...

. The treated water was continuously assessed against EPA and international standards, with Denver Water's drinking water being the primary benchmark for comparison. The project's objective, to ensure the treated water met or surpassed these established safety standards, was achieved.

Health effects study

The study of health effects of the Denver Potable Water Resuse Project was based on the recommendations of the National Research Council’s Panel on Quality Criteria for Reuse, which included the need for chronic

toxicity Toxicity is the degree to which a chemical substance or a particular mixture of substances can damage an organism. Toxicity can refer to the effect on a whole organism, such as an animal, bacteria, bacterium, or plant, as well as the effect o ...

testing using whole-animal models. This study was designed to complement the water quality testing program by focusing on the fraction of organic constituents that could not be analyzed by current methods.National Research Council (US) Committee to Evaluate the Viability of Augmenting Potable Water Supplies with Reclaimed Water
Issues in Potable Reuse: The Viability of Augmenting Drinking Water Supplies With Reclaimed Water
Washington (DC): National Academies Press (US); 1998.Reinhart, M., Dolce, C.J., McCarty, P.L. and Argo, D.G. (1979) Trace Organics Removal of Advanced Waste Treatment. ASCE J. Environ. Eng. Div. 105:EE4:675.McCarty, PL. (1980) Organics in Water -An Engineering Challenge. ASCE J. Environ. Eng. Div.. 107:EEl:l. The project included two-year chronic toxicity and carcinogenicity studies in rats and mice, as well as

reproductive The reproductive system of an organism, also known as the genital system, is the biological system made up of all the anatomical organs involved in sexual reproduction. Many non-living substances such as fluids, hormones, and pheromones are al ...

toxicity studies in rats. The water samples tested included reclaimed water from the process treated through either reverse osmosis or ultrafiltration, in addition to samples from Denver’s municipal drinking water supply as benchmarks. Across all sample types, no treatment-related adverse health effects were observed.

Cost estimates

Operation and maintenance (O&M) costs for each treatment process in the 1 million gallons per day (mgd) reuse demonstration facility were calculated based on actual operational data collected between 1985 and 1990. These data were used to compare various treatment sequences and contributed to the selection of the final health effects treatment system. Construction costs estimates were obtained from engineering tables. All costs were expressed in January 1994 US dollars. Lower cost estimates were obtained by relying exclusively (for both construction and O&M) on engineering table values and by evaluating a split treatment approach based on 50% reverse osmosis and 50% ultrafiltration. This method yielded a minimum estimated cost of $1.83 per 1,000 gallons. Overall, the cost range for DPR was estimated at $1.83 to $2.60 per 1,000 gallons. These figures compared favorably with similarly uncertain estimates for conventional water supply augmentation, which ranged from $0.86 to $3.30 per 1,000 gallons.

Outreach

Public awareness

In addition to scientific and technical evaluations, the project included a public awareness campaign to inform and engage Denver residents. Tours of the treatment plant provided the general public with firsthand insight into the treatment process. Various media outlets, including television, radio, and newspapers, were used to disseminate information about the progress and findings of the project. The project included surveys measuring public attitudes toward the concept of potable water reuse. University researchers evaluated how the project influenced public perceptions and acceptance of the idea of drinking water sourced from treated wastewater. One measure of success was to inform more than 50,000 Denver residents about potable reuse, a metric that was achieved and surpassed.Potable Wastewater Reuse Can Win Public Support." In Proceedings, Reuse Symposium IV,Denver: AWWA Research Foundation, 1987. The demonstration facility provided guided tours of the demonstration facility serving as the focal point, with more than 7,000 visitors participating in the tours, providing firsthand exposure to the treatment process and its objectives. A periodic newsletter published as part of the project communicated to the public progress on the project milestones, with a circulation of over 2,000 by the final issue. Informational inserts with information about water reuse (bill stuffers) were distributed to over 200,000 households on multiple occasions. Media coverage included numerous newspaper articles and television segments that documented the project’s progress. A 26-minute documentary entitled ''Pure Water Again'' was produced and made available to community access channels and local public television stations. The documentary had an estimated

viewership Audience measurement calculates how many people are in an audience, usually in relation to radio listenership and television viewership, but also in relation to newspaper and magazine readership and, increasingly, web traffic. The term is sometim ...

of approximately 50,000.Lohman, L.C., Milliken, J.G., Informational/Educational Approaches to Public Attitudes on Potable Reuse of Wastewater. Denver Research Institute, University of Denver Special Collections and Archives (1985) This outcome in combination with the number of residents attending plant tours, and the number receiving informational inserts in water bills, exceeded the public awareness goal.

Technical review

While the primary focus of the outreach was on public education, the program also engaged suitable technical and regulatory communities to build credibility and foster acceptance. Over 50 presentations were delivered at technical conferences and meetings, and more than 100 technical articles were published in professional journals and industry periodicals. In addition, the project was extensively cited in presentations at technical conferences and

scientific journal In academic publishing, a scientific journal is a periodical publication designed to further the progress of science by disseminating new research findings to the scientific community. These journals serve as a platform for researchers, schola ...

Outcome

The Denver Direct Potable Water Reuse Demonstration Project issued a final report in 1993. The project demonstrated that the five primary objectives were fully satisfied and that direct potable water reuse is a possible means of satisfying future water supply needs for the Denver

Metropolitan Metropolitan may refer to: Areas and governance (secular and ecclesiastical) * Metropolitan archdiocese, the jurisdiction of a metropolitan archbishop ** Metropolitan bishop or archbishop, leader of an ecclesiastical "mother see" * Metropolitan ar ...

Area. Regarding specific objectives, comprehensive physical, chemical, and microbiological testing confirmed that the reclaimed water met or exceeded purity standards of conventional domestic water supplies. These tests included evaluation of chronic toxicity and carcinogenicity over a two year period, as well as two-generation reproductive studies. The results showed no adverse health effects. The treatment plant unit operations proceeded for 24 hours per day over a five year period, consistently meeting Denver Water's quality standards, demonstrating the reliability objective. These data resulted in cost estimates that compared favorably with projected costs for conventional

water supply Water supply is the provision of water by public utilities, commercial organisations, community endeavors or by individuals, usually via a system of pumps and pipes. Public water supply systems are crucial to properly functioning societies. Th ...

augmentation projects in Denver. The public outreach component of the project reached approximately 50,000 Denver residents through various educational initiatives. Public opinion was generally cautiously optimistic, with most respondents expressing willingness to accept potable water reuse, provided its necessity was demonstrated and its safety assured. Results of the project were published extensively for evaluation by subject matter experts, laying the ground work for pursuing regulatory approval. While the project successfully met its objectives, Denver Water emphasized water conservation efforts in the time following completion of the project.

Related projects

The Denver Direct Potable Water Reuse Demonstration Project is in contrast to other projects which made indirect use of reclaimed water. An example of indirect use of reclaimed water is the project in

Orange County, California Orange County (officially the County of Orange; often initialized O.C.) is a county (United States), county located in the Los Angeles metropolitan area in Southern California, United States. As of the 2020 United States census, the population ...

, which injects the reclaimed water into the

groundwater Groundwater is the water present beneath Earth's surface in rock and Pore space in soil, soil pore spaces and in the fractures of stratum, rock formations. About 30 percent of all readily available fresh water in the world is groundwater. A unit ...

. Other current water reclamation projects make use of decentralized water processing, unlike the centralized process of the Denver Direct Potable Water Reuse Demonstration Project.

References

{{reflist

External links

Executive summary of the final report
of Denver Water to the US EPA * US EPA report o
Reusing Water for Potable Applications Resources
Water resource management in the United States