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1

Claytor, Richard A. Design of stormwater filtering systems. Solomons, MD (P.O. Box 1280, Solomons 20688): Chesapeake Research Consortium, 1996.

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2

Martin, Edward H. Constituent-load changes in urban stormwater runoff routed through a detention pond-wetlands system in central Florida. Tallahassee, Fla: U.S. Dept. of the Interior, Geological Survey, 1986.

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3

Martin, Edward H. Constituent-load changes in urban stormwater runoff routed through a detention pond-wetlands system in central Florida. Tallahassee, Fla: U.S. Dept. of the Interior, Geological Survey, 1986.

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4

Martin, Edward H. Constituent-load changes in urban stormwater runoff routed through a detention pond-wetlands system in central Florida. Tallahassee, Fla: U.S. Dept. of the Interior, Geological Survey, 1986.

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5

Martin, Edward H. Constituent-load changes in urban stormwater runoff routed through a detention pond-wetlands system in central Florida. Tallahassee, Fla: U.S. Dept. of the Interior, Geological Survey, 1986.

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6

Martin, Edward H. Constituent-load changes in urban stormwater runoff routed through a detention pond-wetlands system in central Florida. Tallahassee, Fla: U.S. Dept. of the Interior, Geological Survey, 1986.

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7

Martin, Edward H. Constituent-load changes in urban stormwater runoff routed through a detention pond-wetlands system in central Florida. Tallahassee, Fla: U.S. Dept. of the Interior, Geological Survey, 1986.

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8

Gain, W. Scott. The effects of flow-path modification on water-quality constituent retention in an urban stormwater detention pond and wetland system, Orlando, Florida. Tallahassee, Fla: U.S. Dept. of the Interior, U.S. Geological Survey, 1996.

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9

Gain, W. Scott. The effects of flow-path modificaton on water-quality constituent retention in an urban stormwater detention pond and wetland system, Orlando, Florida. Tallahassee, Fla: U.S. Dept. of the Interior, U.S. Geological Survey, 1996.

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10

Gain, W. Scott. The effects of flow-path modificaton on water-quality constituent retention in an urban stormwater detention pond and wetland system, Orlando, Florida. Tallahassee, Fla: U.S. Dept. of the Interior, U.S. Geological Survey, 1996.

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11

Gain, W. Scott. The effects of flow-path modification on water-quality constituent retention in an urban stormwater detention pond and wetland system, Orlando, Florida. Tallahassee, Fla: U.S. Dept. of the Interior, U.S. Geological Survey, 1996.

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12

Gain, W. Scott. The effects of flow-path modification on water-quality constituent retention in an urban stormwater detention pond and wetland system, Orlando, Florida. Tallahassee, Fla: U.S. Dept. of the Interior, U.S. Geological Survey, 1996.

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13

Gain, W. Scott. The effects of flow-path modificaton on water-quality constituent retention in an urban stormwater detention pond and wetland system, Orlando, Florida. Tallahassee, Fla: U.S. Dept. of the Interior, U.S. Geological Survey, 1996.

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14

Gain, W. Scott. The effects of flow-path modificaton on water-quality constituent retention in an urban stormwater detention pond and wetland system, Orlando, Florida. Tallahassee, Fla: U.S. Dept. of the Interior, U.S. Geological Survey, 1996.

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15

International, Pacific Consultants. The comprehensive master plan study on urban seismic disaster prevention and management for the Greater Tehran area in the Islamic Republic of Iran: Final report, the study on reconstruction plan for Bam water supply system. Tokyo]: Japan International Cooperation Agency, 2005.

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16

Urban storm water design. Highlands Ranch, Colo: Water Resources Publications, 2003.

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17

Brian, Robinson. Urban design information system: Feasibility report. Wetherby: British Library Research and Development Department, 1994.

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18

Pharmaceutical water: System design, operation, and validation. New York: Informa Healthcare, 2011.

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19

Pharmaceutical water: System design, operation, and validation. Buffalo Grove, Ill: Interpharm Press, 1999.

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20

Edwards, Melvin D. Conceptual design for the National Water Information System. Denver, Colo: Dept. of the Interior, U.S. Geological Survey, 1986.

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21

Edwards, Melvin D. Conceptual design for the National Water Information System. Washington: U.S. G.P.O., 1987.

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22

Edwards, Melvin D. Conceptual design for the National Water Information System. Denver, Colo: Dept. of the Interior, U.S. Geological Survey, 1986.

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23

Edwards, Melvin D. Conceptual design for the National Water Information System. Washington, DC: U.S. Geological Survey, 1987.

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24

Lobbrecht, Arnold H. Dynamic water-system control: Design and operation of regional water-resources systems. Rotterdam: Balkema, 1997.

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25

Becker, A. Hydrological models for water-resources system design and operation. Geneva, Switzerland: Secretariat of the World Meteorological Organization, 1990.

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26

Becker, A. Hydrological models for water-resources system design and operation. Geneva, Switzerland: Secretariat of the World Meteorological Organization, 1990.

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27

Coucouvinis, Jim. Urban water supply and sanitation components: Water and sanitation initiative, Indonesia : program design document. [Jakarta]: Indonesia Infrastructure Initiative, 2010.

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28

Rao, Liang. The structural design of the Telford urban policy information system. Liverpool: Urban Research and Policy Evaluation Regional Research Laboratory, 1991.

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29

Stubley, P. SEAFP cooling system design: Task M8 - water coolant option (final report). Mississauga, Ont: CFFTP, 1994.

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30

Onuoha, Anthonia Ezinwanne. The design of a water quality management system for Nigerian rivers. Salford: University of Salford, 1993.

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31

Kuo, Wen-Chu. A combined approach to water minimisation and effluent treatment system design. Manchester: UMIST, 1996.

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32

Massman, Joel W. Infiltration characteristics, performance, and design of storm water facilities. [Olympia]: Washington State Dept. of Transportation, 2001.

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33

Stevens, Larry J. Design guide and construction specifications for National Pollutant Discharge Elimination System (NPDES) site runoff control. Ames, Iowa: Center for Transportation Research and Education, Iowa State University, 2006.

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34

(Jan), Feyen J., Shannon Kelly, and Neville Matthew, eds. Water and urban development paradigms: Towards an integration of engineering, design and management approaches : proceedings of the International Urban Water Conference, Heverlee, Belgium, 15-19 September, 2008. Boca Raton, Fla: CRC, 2009.

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35

Treatment system hydraulics. Reston, VA: American Society of Civil Engineers, 2008.

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36

Miller, Wesley L. Description and evaluation of the effects of urban and agricultural development on the surficial aquifer system, Palm Beach County, Florida. Tallahassee, Fla: Dept. of the Interior, U.S. Geological Survey, 1988.

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37

Hiltz, R. H. Design and construction of a mobile activated carbon regenerator system. Cincinnati, OH: U.S. Environmental Protection Agency, Hazardous Waste Engineering Research Laboratory, 1986.

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38

Horst, Lucas. The dilemma of water division: Considerations and criteria for irrigation system design. Colombo: International Irrigation Management Institute, 1998.

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39

Horst, Lucas. The dilemmas of water division: Considerations and criteria for irrigation system design. Colombo: International Irrigation Management Institute, 1998.

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40

Engineering Foundation Conference on Current Practice and Design Criteria for Urban Quality Control (1988 Potosi, Mo.). Design of urban runoff quality controls: Proceedings of an Engineering Foundation Conference on Current Practice and Design Criteria for Urban Quality Control : Trout Lodge, Potosi, Missouri, July 10-15, 1988. New York, N.Y: The Society, 1989.

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41

Roomann, Raja R. Urban growth and the development of an urban sewer system: City of Cincinnati, 1800-1915. Cincinnati: RONNHU Publishers, 2001.

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42

Hansen, Erwin G. Hydronic system design and operation: A guide to heating and cooling with water. New York: McGraw-Hill, 1985.

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43

Hegberg, Richard A. Fundamentals of water system design: A self-directed learning course for professional development. Atlanta, GA (1791 Tullie Circle NE, Atlanta 30329): American Society of Heating, Refrigerating and Air-Conditioning Engineers Inc., 1996.

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44

Seminar, Workshop on Aeration System Design Testing Operation and Control (1982 University of Wisconsin-Madison). Proceedings: Seminar Workshop on Aeration System Design, Testing, Operation, and Control : University of Wisconsin, Madison, Wisconsin, August 2-4, 1982. Cincinnati, Ohio: Water Engineering Research Laboratory, Office of Research and Development, U.S. Environmental Protection Agency, 1985.

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45

Urban Stormwater. CSIRO Publishing, 1999. http://dx.doi.org/10.1071/9780643100596.

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The intense concentration of human activity in urban areas leads to changes in both the quantity and quality of runoff that eventually reaches our streams, lakes, wetlands, estuaries and coasts. The increasing use of impervious surfaces designed to provide smooth and direct pathways for stormwater run-off, has led to greater runoff volumes and flow velocities in urban waterways. Unmanaged, these changes in the quantity and quality of stormwater can result in considerable damage to the environment. Improved environmental performance is needed to ensure that the environmental values and beneficial uses of receiving waters are sustained or enhanced. Urban Stormwater - Best-Practice Environmental Management Guidelines resulted from a collaboration between State government agencies, local government and leading research institutions. The guidelines have been designed to meet the needs of people involved in the planning, design or management of urban land uses or stormwater drainage systems. They provide guidance in ten key areas: Environmental performance objectives; Stormwater management planning; Land use planning; Water sensitive urban design; Construction site management; Business surveys; Education and awareness; Enforcement; Structural treatment measures; and Flow management. Engineers and planners within local government, along with consultants to the development industry, should find the guidelines especially useful. Government agencies should also find them helpful in assessing the performance of stormwater managers. While developed specifically for application in Victoria, Australia, the information will be of value to stormwater managers everywhere.
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46

Connellan, Geoff. Water Use Efficiency for Irrigated Turf and Landscape. CSIRO Publishing, 2013. http://dx.doi.org/10.1071/9780643106888.

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Achieving high water use efficiency in maintaining turf, trees and landscape areas is a core responsibility of open space managers. Water Use Efficiency for Irrigated Turf and Landscape provides a logical and scientifically sound approach to irrigation in urban areas in Australia. It is based on green space delivering defined outcomes using the principles of water sensitive urban design and irrigation efficiency. The book covers all stages of the water pathway – from the source to delivery into the plant root zone. Major topics include system planning, estimating water demand, water quality, irrigation systems, soil management and irrigation performance evaluation. Clearly presented explanations are included, as well as line drawings and worked examples, and a plant water use database covering more than 250 plant species. A Water Management Planning template is included to guide water managers and operators through a process that will deliver a sound plan to achieve sustainable turf, urban trees and landscapes. Best Management Practice Irrigation principles are outlined and their implementation in open space turf and landscape situations is explained. The benefits and limitations of the various methods of delivering water to plants are covered, together with case studies and guidelines for specific horticultural situations. Methodologies to evaluate irrigated sites are included along with recommended benchmark values. The book presents the latest irrigation technology, including developments in water application, control technology and environmental sensors such as weather stations, soil moisture sensors and rain sensors.
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47

Bertrand-Krajewski, Jean-Luc, Francois Clemens-Meyer, and Mathieu Lepot, eds. Metrology in Urban Drainage and Stormwater Management: Plug and Pray. IWA Publishing, 2021. http://dx.doi.org/10.2166/9781789060119.

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Abstract This book presents the advancements made in applied metrology in the field of Urban Drainage and Storm water Management over the past two decades in scientific research as well as in practical applications. Given the broadness of this subject (measuring principles, uncertainty in data, data validation, data storage and communication, design, maintenance and management of monitoring networks, technical details of sensor technology), the focus is on water quantity and a sound metrological basis. The book offers common ground for academics and practitioners when setting up monitoring projects in urban drainage and storm water management. This will enable an easier exchange of results so as to allow for a faster scientific progress in the field. A second, but equally important goal, is to allow practitioners access to scientific developments and gained experience when it comes to monitoring urban drainage and storm water systems. In-depth descriptions of international case studies covering all aspects discussed in the book are presented, along with self-training exercises and codes available for readers on a companion website. Numerous detailed examples are given in the book, with corresponding open-source codes and training files available to download here. ISBN: 9781789060102 (Paperback) ISBN: 9781789060119 (eBook)
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48

Approaches to Water Sensitive Urban Design. Elsevier, 2019. http://dx.doi.org/10.1016/c2016-0-03594-5.

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49

Water Sensitive Urban Design Engineering Procedures: Stormwater. CSIRO Publishing, 2005.

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50

Hooimeijer, Fransje. More Urban Water: Design and Management of Dutch Water Cities. Taylor & Francis Group, 2014.

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