RiverSpill: A National Application for Drinking Water Protection
Publication: Journal of Hydraulic Engineering
Volume 132, Issue 4
Abstract
RiverSpill is a geographic information system-based software package that calculates time-of-travel and concentration of contaminants in streams and rivers. The purpose of RiverSpill is to serve as a tool for response, planning, and training for the protection of the nation’s surface drinking water from deliberate (homeland security) threats. RiverSpill uses real-time stream flow data, a hydrologically connected stream network, and the locations and populations served by each public, surface drinking water intake. Accidental water contamination events such as spills from transportation infrastructures (highway, railroad, and pipeline), wastewater treatment plants, and hazardous materials storage sites may also be simulated. RiverSpill contains a comprehensive database of potential constituents of concern and their chemical or biological attributes. Spills may be modeled as either instantaneous or continuous events. Times-of-travel and concentration curves calculated with RiverSpill have been compared with those measured in several streams and rivers using dye. The dye measurements have been used to evaluate and calibrate RiverSpill to specific rivers.
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Acknowledgments
This work was funded by the EPA, the Federal Emergency Management Agency (FEMA), and the TSWG. The writers thank Steve Clark, Janet Pawlukiewicz, Kevin McCormack, Grace Robiou (EPA), Paul Bryant (FEMA), and Perry Pederson and Paul Short (TSWG) for program management support. They also wish to thank Dr. Walter Grayman and Dr. Rolf Deininger for analysis of the discharge–flow relationship and constituents of concern, respectively.
References
Asfaw, E., Schwarz, G., and Harvey, J. (2004). “Estimation of time of travel of solutes in rivers.” Abstract, Poster Presented at the Proc., 2004 AWRA Spring Meeting, Nashville, Tenn.
Battin, A., Kinerson, R., and Lahlou, M. (1998). “EPA’s better assessment science integrating point and nonpoint sources (BASINS)—A powerful tool for managing watersheds.” Proc., Environmental Systems Research Institute (ESRI) Users Conf., San Diego.
Bureau of Transportation Statistics (BTS). (1998). “North American Transportation Atlas Data (NORTAD).” ⟨http://www.bts.gov/publications/north_american_transportation_atlas_data/⟩ BTS-CD-24, (December 1998).
Corps of Engineers (COE). (1999). “National Inventory of Dams.” ⟨http://crunch.tec.army.mil/nid/webpages/nid.cfm⟩ (January 1999).
Corso, P. S., Kramer, M. H., Blair, K. A., Addiss, D. G., Davis, J. P., and Haddix, A. C. (2003). “Cost of illness in the 1993 waterborne Cryptosporidium outbreak, Milwaukee Wisconsin.” Emerg. Infect. Dis., 9(4), 426–431.
Deininger, R. (2000). “The threat of chemical and biological agents to public water supply systems.” Water Pipeline Database, TSWG Task T-1211, SAIC Hazard and Assessment Division, McLean, Va.
Environmental Protection Agency (EPA). (1987). “Enhanced stream water quality model, Windows (QUAL2E).” EPA 600/3–87, USEPA, Office of Research and Development, Athens, Ga.
Environmental Protection Agency (EPA). (1997). “Description of pollutant routing model (P-Route).” ⟨http://www.epa.gov/P-ROUTE/metadata.txt.html⟩ (March 28, 2000).
Environmental Protection Agency (EPA). (2002a). “Permits compliance system (PCS).” ⟨http://www.epa.gov/enviro/html/pcs⟩ (September 17, 2002).
Environmental Protection Agency (EPA). (2002b). “Resource conservation and recovery act (RCRAInfo).” ⟨http://www.epa.gov/enviro/html/rcris/⟩ (September 16, 2002).
Environmental Protection Agency (EPA). (2002c). “Safe drinking water information system (SDWIS).” ⟨http://www.epa.gov/enviro/html/sdwis⟩ (June 19, 2002).
Environmental Systems Research Institute (ESRI). (2004a). “ArcView.” Redlands, Calif., ⟨http://www.esri.com/software/arcview/⟩ (August 16, 2004).
Environmental Systems Research Institute (ESRI). (2004b). “Arcview Network Analyst.” Redlands, Calif., ⟨http://www.esri.com/software/arcview/extensions/networkanalyst⟩ (August 16, 2004).
Environmental Systems Research Institute (ESRI). (2004c). “Arcview StreetMap,” Redlands, Calif., ⟨http://www.esri.com/software/arcview/extensions/streetmap/⟩ (August 16, 2004).
Gates, W. E., and Associates, Inc. (1982). “Estimation of streamflows and the reach file.” Rep. Prepared for the U.S. Environmental Protection Agency, Monitoring Branch, Washington, D.C.
Grayman, W. (2000). “Follow up on relationship between flow and velocity.” Technical Memorandum April 25, 2000, Walter M. Grayman Consulting Engineer, Cincinnati.
Horn, C. R., and Grayman, W. M. (1993). “Water-quality modeling with EPA reach file system.” J. Water Resour. Plan. Manage., 119(2), 262–274.
Hubbard, E. F., Kilpatrick, F. A., Martens, L. A., and Wilson, J. F., Jr. (1982). “Measurement of time of travel and dispersion in streams by dye tracing.” Book, 3, U.S. Geological Survey Techniques of Water Resources Investigations, U.S. Government Printing Office, Washington, D.C., Chap. A9.
Interstate Commission on the Potomac River Basin (ICPRB). (2002). “Toxic spill model.” Fact Sheet April 28, 2002, Interstate Commission on the Potomac River Basin, Rockville, Md.
Ippen, A. T. (1966). Estuary and coastline hydrodynamics, Engineering Societies Monographs, McGraw-Hill, New York.
Jamali, M., Lawrence, G. A., and Maloney, K. (2005). “Dispersion in varying-geometry rivers with application to methanol releases.” J. Hydraul. Eng., 131(5), 390–396.
Jobson, H. E. (1996). “Prediction of travel time and longitudinal dispersion in rivers and streams.” USGS Water-Resources Investigations Rep. No. 96-4013, Reston, Va.
Kilpatrick, F. A., and Wilson, J. F., Jr. (1989). “Measurement of time of travel in streams by dye tracing.” USGS techniques of water-resources investigations, Book 3, U.S. Geological Survey, Denver, Chap. A9.
Lee, K. (1995). “Stream velocity and dispersion characteristics determined by dye-tracer studies on selected stream reaches in the Willamette River Basin, Oregon.” USGS Water-Resources Investigations Rep. No. 95-4078, Denver.
Leopold, L. L., and Maddock, T., Jr. (1953). “The hydraulic geometry of stream channels and some physiographic implications.” U.S. Geol. Surv. Prof. Pap., 252, 57.
Maidment, D., ed. (1993). Handbook of Hydrology, McGraw-Hill, New York.
Nolan, J. V., Brakebill, J. W., Alexander, R. B., and Schwarz, G. E. (2002). “ERF1-2—Enhanced river reach file 2.0.” USGS Open-File Rep. No. 02-40, U.S. Geological Survey, Reston, Va.
Novak, P., ed. (1985). Developments in hydraulic engineering-3, Elsevier Applied Science, Essex, U.K.
Pao, R. H. F. (1967). Fluid Dynamics, Charles E. Merrill, Columbus, Ohio.
Research and Special Programs Administration (RSPA). (2003). “The national pipeline mapping system.” US Department of Transportation, ⟨http://www.npms.rspa.dot.gov/⟩. (April 20, 2004).
Rycus, M. J., and Snyder, J. C. (2001). “Protection of public water systems: Emergency response and water system security in Germany, Israel, and Japan,” and “Vulnerability of Public Water System Supervisory Control and Data Acquisition (SCADA) Systems.” Rep. Prepared for the President’s Commission on Critical Infrastructure Protection, Studies in Urban Security Group (SUSG), Ann Arbor, Mich.
Science Applications International Corporation (SAIC). (2003). “Users guide, riverspill, Version 2.1.” Revised January, 2003. Rep. to USEPA, Washington, D.C.
Smith, R. A., Schwarz, G. E., and Alexander, R. B. (1997). “Regional Interpretation of Water-Quality Monitoring Data.” Water Resour. Res., 33(12), 2781–2798.
Smith, T. E. (2002). “Travel times and dispersion of soluable dye in thirteen New Hampshire rivers.” USGS Open File Rep. No. 02-226, Reston, Va.
Taylor, G. I. (1954). “Dispersion of matter in turbulent flow through a pipe.” Proc. R. Soc. London, Ser. A, 223, 446–468.
Thomann, R. V., and Mueller, J. A. (1987). Principles of surface water quality modeling and control, Harper & Row, New York.
U.S. Geological Survey (USGS). (2003). “ERF1_2—Enhanced river reach 2.0 metadata.” ⟨http://water.usgs.gov/GIS/metadata/usgswrd/XML/erf1_2.xml⟩ (November 10, 2003).
U.S. Geological Survey (USGS). (2004). “USGS real-time water data for the nation.” ⟨http://waterdata.usgs.gov/nwis/rt⟩ (December, 27, 2004).
Wilson, J. F. (1967). “Time-of-travel measurements and other applications of dye tracing.” Hydrologic aspects of the utilization of water, Publication 76, International Association of Scientific Hydrology, Oxford, U.K.
Wilson, J. F., Jr., Cobb, E. D., and Kilpatrick, F. A. (1986). “Fluorometric procedures for dye tracing (rev.).” U.S. Geological survey techniques of water-resources investigations, Book 3, Denver, Chap. A12.
Information & Authors
Information
Published In
Journal of Hydraulic Engineering
Volume 132 • Issue 4 • April 2006
Pages: 393 - 403
Copyright
© 2006 ASCE.
History
Received: Feb 3, 2005
Accepted: Sep 9, 2005
Published online: Apr 1, 2006
Published in print: Apr 2006
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