Grantee Research Project Results
Design of Risk-reducing, Innovative-Implementable Small-System Knowledge(DeRISK) Center
EPA Grant Number: R835603Center: Design of Risk-reducing, Innovative-Implementable Small-System Knowledge Center
Center Director: Summers, R. Scott
Title: Design of Risk-reducing, Innovative-Implementable Small-System Knowledge(DeRISK) Center
Investigators: Summers, R. Scott , Hristovski, Kiril D , Linden, Karl G. , Malley, James P. , Dotson, Aaron , Seidel, Chad , Corwin, Christopher , Uber, Jim , Barrett, Joy , Collins, M. Robin , Westerhoff, Paul , Cook, Sherri , Hogrewe, William
Current Investigators: Summers, R. Scott , Westerhoff, Paul , Linden, Karl G. , Uber, Jim , Cook, Sherri , Hristovski, Kiril D , Dotson, Aaron , Collins, M. Robin , Malley, James P. , Barrett, Joy , Hogrewe, William , Seidel, Chad , Rosario-Ortiz, Fernando , Rodriquez, Roberto
Institution: University of Colorado at Boulder , Arizona State University , Rural Community Assistance Partnership , University of Alaska - Anchorage , University of New Hampshire
Current Institution: Arizona State University , University of Alaska - Anchorage , University of Colorado at Boulder , University of New Hampshire , Rural Community Assistance Partnership , University of Texas El Paso School of Public Health
EPA Project Officer: Packard, Benjamin H
Project Period: September 1, 2014 through July 31, 2017 (Extended to July 31, 2018)
Project Amount: $4,099,973
RFA: National Centers for Innovation in Small Drinking Water Systems (2013) RFA Text | Recipients Lists
Research Category: Drinking Water , Water
Objective:
The Center’s overall objectives will focus on applying principles of risk reduction, sustainability and new implementation approaches to innovative technologies that will reduce the risk associated with key contaminant groups and will increase the chance of adoption and sustainable use in small systems.
Approach:
Through the utilization of a new cumulative risk assessment methodology, the Relative Health Indicator, we have identified two contaminant groups: microbial and disinfection by-products (DBPs); and one inorganic compound: nitrate, which collectively pose the greatest risk to drinking water consumers. The innovative technologies to be evaluated have been selected based on: a) their potential to reduce the risk posed by these contaminants, b) the lack of required chemical addition, and c) the likely hood of being successfully implemented and sustained by small systems. First and foremost the Center will focus on the development of new strategies for technology assessment and implementation. The small system landscape is littered with technologies that could not be sustained by the capacity of small systems or, more hidden, technologies that could not be implemented because of the lack of approval at the state level due to lack of state capacity. Thus, we strive to develop a multi-criteria decision support approach that will limit the inappropriate use of technologies and reduce institutional barriers to use of appropriate technologies. This approach will be developed with extensive stakeholder involvement. The technologies to be examined are either photon, biological or distribution system based. The efficacies for the following will be developed and then established in the field: a) control all of the prioritized contaminants with a range of photonbased treatment processes, b) control of particulate matter surges, DBPs and DBP precursors by novel biotreatment processes, and c) control of DBPs and DBP precursors in the distribution system by physical removal, and the optimized maintenance of chlorine residuals. By coordinating our activities with the Canadian small systems’ RES’EAU-WaterNET, we will leverage our resources in our endeavor to protect the public health of small system based consumers.
Expected Results:
The Center will create decision analysis tools for assessing and implementing innovative technologies that will be applicable for a range of treatment goals, and with stakeholder buy-in, acceptable by multiple states. We will advance the science and engineering in our focused technology areas. Our programs will also build capacity in the stakeholder community and by educating the next generation of drinking water providers.
Journal Articles: 15 Displayed | Download in RIS Format
Other center views: | All 116 publications | 15 publications in selected types | All 15 journal articles |
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Garcia-Segura S, Lanzarini-Lopes M, Hristovski K, Westerhoff P. Electrocatalytic reduction of nitrate:Fundamentals to full-scale water treatment applications. APPLIED CATALYSIS B-ENVIRONMENTAL 2018;236:546-568. |
R835603 (Final) |
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Jones C, Terry L, Summers R, Cook S. Environmental life cycle comparison of conventional and biological filtration alternatives for drinking water treatment. ENVIRONMENTAL SCIENCE-WATER RESEARCH & TECHNOLOGY 2018;4(10):1464-1497. |
R835603 (Final) |
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Jones C, Meyer J, Comejo P, Hogrewe W, Seidel C, Cook S. A new framework for small drinking water plant sustainability support and decision-making. SCIENCE OF THE TOTAL ENVIRONMENT 2019;695. |
R835603 (Final) |
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Ling, L., Tugaoen, H., Brame, J., Sinha, S., Li, C., Schoepf, J., Hristovski, K., Kim, J., Shang, C., Westerhoff, P., (2017). Coupling Light-Emitting Diodes with Photocatalyst-Coated Optical Fibers Improves Quantum Yield of Pollutant Oxidation. Environmental Science and Technology 2017; 51 (22), 13319–13326 . |
R835603 (2017) |
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Meyer J, Seidel C, Summers R. Evaluation of Population-Weighted Risk Reduction for Several Disinfection By-Product Control Strategies. JOURNAL OF ENVIRONMENTAL ENGINEERING 2020;146(3). |
R835603 (Final) |
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Oxenford JL, Barrett JM. Understanding small water system violations and deficiencies. Journal of the American Water Works Association 2016;108(3):31-37. |
R835603 (2016) R835603 (2017) |
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Stewart, J.R., Livneh, B., Kasprzyk, J.R., Rajagopalan, B., Minear, J.T. and Raseman, W.J., 2017. A multi-algorithm approach to land surface modeling of suspended sediment in the Colorado Front Range. Journal of Advances in Modeling Earth Systems 2017; 9(7):2526-2544. |
R835603 (2017) R835865 (2017) R835865 (2018) R835865 (Final) |
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Terry, L. G., and Summers, R. S. Biodegradable organic matter and rapid-rate biofilter performance:A review. Water Research 2018;128, 234–245. |
R835603 (2017) |
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Terry L, Peterson E, Summers RS. Organic matter biofiltration performance modeling:Influence of influent water quality, operating conditions, and biomass. WATER RESEARCH 2024;249(121006). |
R835603 (Final) |
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Tugaoen, H., Garcia-Segura, S., Hristovski, K., Westerhoff, P., Challenges in photocatalytic reduction of nitrate as water treatment technology. Science of the Total Environment 2017; 599: 1524–1551. |
R835603 (2017) |
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Tugaoen H, Garcia-Segura S, Hristovski K, Westerhoff P. Challenges in photocatalytic reduction of nitrate as a water treatment technology. SCIENCE OF THE TOTAL ENVIRONMENT 2017;599:1524-1551. |
R835603 (Final) |
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Tugaoen, H., Garcia-Segura, S., Hristovski, K., Westerhoff, P., Compact light-emitting diode optical fiber immobilized TiO2 reactor for photocatalytic water treatment. Science of the Total Environment 2018;613:1331–1338. |
R835603 (2017) |
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Tugaoen, H., Herckes, P., Hristovski, K., Westerhoff, P., Influence of ultraviolet wavelengths on kinetics and selectivity for N-gases during TiO2 photocatalytic reduction of nitrate. Applied Catalysis B-Environmental 2018;220: 597–606 |
R835603 (2017) |
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Beck SE, Ryu H, Boczek L, Cashdollar J, Jeanis K, Rosenblum J, Lawal O, and Linden K (2017). Evaluating UV-C LED disinfection performance and investigating potential dual-wavelength synergy. Water Research 2017;109;207-216. |
R835603 (2017) |
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Hull NM, Linden KG. Synergy of MS2 disinfection by sequential exposure to tailored UV wavelengths. Water research 2018;143:292-300, DOI:j.watres.2018.06.017. |
R835603 (Final) |
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Supplemental Keywords:
drinking water quality and treatment, risk reduction, implementationProgress and Final Reports:
The perspectives, information and conclusions conveyed in research project abstracts, progress reports, final reports, journal abstracts and journal publications convey the viewpoints of the principal investigator and may not represent the views and policies of ORD and EPA. Conclusions drawn by the principal investigators have not been reviewed by the Agency.