Publisher Description

A practical introduction on today's challenge of controlling and managing the water resources used by and affected by cities and urbanized communities. The book offers an integrated engineering approach, covering the spectrum of urban watershed management, urban hydraulic systems, and overall stormwater management. Each chapter concludes with helpful problems. Solutions Manual available to qualified professors and instructors upon request. Introduces the reader to two popular, non-proprietary computer-modeling pro-grams: HEC-HMS (U.S. Army Corps of Engineers) and SWMM (U.S EPA).

Back Cover

A useful, interdisciplinary engineering approach to urban hydrology Urban Hydrology, Hydraulics, and Stormwater Quality offers a unique, integrated engineering approach to controlling and managing the water resources of cities and urban communities. By addressing hydrologic analysis in the urban environment, using physically based methods, and focusing on stormwater quality, this interdisciplinary approach presents all aspects of urban hydrology more closely aligned to real-world practice than traditional hydrology books. With an emphasis on application, this cutting-edge guide thoroughly covers urban watershed management, urban drainage system design, and stormwater quality management, complete with logic-driven questions reinforcing the fundamental, qualitative, quantitative, and extended application concepts discussed in each chapter. Relying heavily on numerical techniques addressed throughout the book, two of the most widely used computer modeling programs in the industry are presented: The Corps of Engineers HEC-HMS model The Environmental Protection Agency SWMM model Urban Hydrology, Hydraulics, and Stormwater Quality is a great textbook for students in civil and environmental engineering, as well as a handy resource for professional civil engineers, hydrologists, urban planners, and environmental engineers.

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A useful, interdisciplinary engineering approach to urban hydrology Urban Hydrology, Hydraulics, and Stormwater Quality offers a unique, integrated engineering approach to controlling and managing the water resources of cities and urban communities. By addressing hydrologic analysis in the urban environment, using physically based methods, and focusing on stormwater quality, this interdisciplinary approach presents all aspects of urban hydrology more closely aligned to real-world practice than traditional hydrology books. With an emphasis on application, this cutting-edge guide thoroughly covers urban watershed management, urban drainage system design, and stormwater quality management, complete with logic-driven questions reinforcing the fundamental, qualitative, quantitative, and extended application concepts discussed in each chapter. Relying heavily on numerical techniques addressed throughout the book, two of the most widely used computer modeling programs in the industry are presented: The Corps of Engineers HEC-HMS model The Environmental Protection Agency SWMM model Urban Hydrology, Hydraulics, and Stormwater Quality is a great textbook for students in civil and environmental engineering, as well as a handy resource for professional civil engineers, hydrologists, urban planners, and environmental engineers.

Author Biography

A. OSMAN AKAN, PhD, PE, is Professor and current Chair of the Department of Civil and Environmental Engineering at Old Dominion University in Norfolk, Virginia. He has more than thirty years of teaching, research, and consulting experience in the general field of water resources engineering. His publication record includes Urban Stormwater Hydrology (Wiley), several chapters in design handbooks, and numerous articles in scholarly journals. ROBERT J. HOUGHTALEN, PhD, is Professor and Head of the Civil Engineering Department at the Rose-Hulman Institute of Technology in Terre Haute, Indiana. During his thirty years of experience in water resources, his publishing credits include Fundamentals of Hydraulic Engineering Systems, Third Edition (with Ned H. C. Hwang) and the Federal Highway Administration's Hydraulic Design of Highway Culverts, Second Edition (HDS 5) (with Jerome M. Normann and William J. Johnston). For more than fifteen years, he has taught the EPA-SWMM model and the Corps of Engineers' HEC-HMS model in continuing education classes for ASCE.

Table of Contents

Preface. Acknowledgments. 1 Introduction. 1.1 Urbanization and Stormwater Runoff. 1.2 Urban Hydrology, Hydraulics, and Stormwater Quality. 1.3 Organization of the Book. Problems. 2 Rainfall for Designing Urban Drainage Systems. 2.1 Hydrologic Description of Rainfall. 2.2 Probabilistic Description of Rainfall. 2.2.1 Return Period and Hydrologic Risk. 2.2.2 Frequency Analysis. 2.2.3 Intensity-Duration-Return Period Curves. 2.2.4 Mathematical Intensity-Duration Relationships. 2.3 Design Rainfall. 2.3.1 Continuous Simulation and Single-Event Methods. 2.3.2 Design Return Period. 2.3.3 Design-Storm Duration and Depth. 2.3.4 Spatial and Temporal Distribution of Design Rainfall. 2.4 Construction of Design-Storm Hyetographs. 2.4.1 Soil Conservation Service Method. 2.4.2 Yen and Chow Method. 2.4.3 Huff Method. 2.4.4 Synthetic Block Hyetograph Method. 2.4.5 Chicago Method. Problems. References. 3 Rainfall Excess Calculations. 3.1 Calculation of Rainfall Abstractions. 3.1.1 Interception Storage. 3.1.2 Infiltration. 3.1.3 Depression Storage. 3.2 Combined Loss Models. 3.2.1 Soil Conservation Service Method. 3.2.2 Other Combined Loss Models. Problems. References. 4 Rainfall Excess and Open-Channel Flow in Urban Watersheds. 4.1 Open-Channel Hydraulics. 4.1.1 Basic Definitions. 4.1.2 States of Open-Channel Flow. 4.1.3 Open-Channel Flow Equations. 4.1.4 Steady Gradually Varied Flow. 4.1.5 Normal Flow. 4.1.6 Open-Channel Rating Curve. 4.2 Overland Flow. 4.2.1 Kinematic-Wave Model. 4.2.2 Overland Flow on Impervious Surfaces. 4.2.3 Overland Flow on Pervious Surfaces. 4.3 Channel Flow. 4.3.1 Muskingum Method. 4.3.2 Muskingum-Cunge Method. 4.3.3 Muskingum-Cunge Method for Routing with Lateral Inflow. 4.3.4 Modified Att-Kin Method. Problems. References. 5 Calculation of Runoff Rates From Urban Watersheds. 5.1 Basic Concepts. 5.1.1 Elements of Urban Runoff Hydrographs. 5.1.2 Definition of Time of Concentration. 5.2 Calculation of Time of Concentration. 5.2.1 SCS Time-of-Concentration Method. 5.2.2 Kinematic Time-of-Concentration Formulas. 5.2.3 Kirpich Formula. 5.3 Unit Hydrograph Method. 5.3.1 Unit Hydrograph Development. 5.3.2 Application of the Unit Hydrograph Method. 5.4 Soil Conservation ServiceMethods for Runoff Rate Calculations. 5.4.1 TR-55 Graphical Peak Discharge Method. 5.4.2 TR-55 Tabular Hydrograph Method. 5.5 The Santa Barbara Urban Hydrograph Method. 5.6 USGS Regression Equations. 5.7 The Rational Method. 5.8 The Kinematic-Rational Methods. Problems. References. 6 Stormwater Drainage Structures. 6.1 Drainage of Street Pavements. 6.1.1 General Design Considerations. 6.1.2 Flow in Gutters. 6.1.3 Pavement Drainage Inlets. 6.1.4 Pavement Drainage Inlet Locations. 6.2 Storm Sewer Systems. 6.2.1 Storm Sewer Hydraulics. 6.2.2 Design Discharge for Storm Sewers. 6.2.3 Sizing Storm Sewers. 6.2.4 Hydraulic Grade Line Considerations. 6.2.5 Storm Sewer System Design Calculations. 6.3 Culverts. 6.3.1 Inlet Control Flow. 6.3.2 Outlet Control Flow. 6.3.3 Sizing of Culverts. 6.4 Design of Surface Drainage Channels. 6.4.1 Design of Unlined Channels. 6.4.2 Design of Grass-Lined Channels. Problems. References. Suggested Reading. 7 Stormwater Detention for Quantity Management. 7.1 Detention Basins. 7.1.1 Stage-Storage Relationship. 7.1.2 Stage-Discharge Relationship. 7.1.3 Pond Routing. 7.1.4 Pond-Routing Charts. 7.1.5 Design of Detention Basins. 7.2 Infiltration Practices. 7.2.1 Capture Volume. 7.2.2 Soil Textures. 7.2.3 Infiltration Basins. 7.2.4 Infiltration Trenches. 7.2.5 Dry Wells. 7.2.6 Porous Pavements. Problems. References. Suggested Reading. 8 Urban Stormwater Pollution. 8.1 Modeling Urban Stormwater Quality. 8.1.1 Solids Buildup and Wash-off from Impervious Areas. 8.1.2 Solids Wash-off from Pervious Surfaces. 8.1.3 Wash-off of Pollutants Other than Solids. 8.1.4 Pollutographs and Loadographs. 8.2 Annual Pollutant Load Estimates. 8.2.1 EPA Model for Annual Pollutant Loading Estimation. 8.2.2 U.S. Geological Survey Model for Mean Annual Loads. 8.2.3 Metropolitan Washington Council of Governments Method. Problems. References. 9 Best Management Practices for Urban Stormwater Quality Control. 9.1 Extended Detention Basins. 9.1.1 Sizing Extended Detention Basins. 9.1.2 Sizing Water Quality Outlet Devices. 9.1.3 Additional Extended Detention Basin Design Considerations. 9.2 Retention Basins. 9.2.1 Permanent Pool Volume. 9.2.2 Retention Basin Design Considerations. 9.2.3 EPA Methodology for Analysis of Wet Pond Detention Basins. 9.3 Water Quality Trenches. 9.4 Sand Filters. 9.5 Stormwater Wetlands. 9.6 Other Vegetative BMPs. 9.6.1 Grass Swales. 9.6.2 Filter Strips. 9.7 The National Stormwater BMP Database. Problems. References. 10 Urban Stormwater Computer Models: HEC-HMS and EPA-SWMM. 10.1 Hydrologic Modeling Overview and Watershed Delineation. 10.2 Model Structure and Features of HEC-HMS. 10.3 Technical Capabilities of HEC-HMS. 10.4 HEC-HMS Example Problem. 10.5 Structure and Features of EPA-SWMM. 10.6 Technical Capabilities of EPA-SWMM. 10.7 EPA-SWMM Example Problem. 10.8 Model Calibration and Verification. Problems. References. Suggested Reading. Appendix 1: Tabular Hydrograph Unit Discharges for SCS Type II Rainfall Distribution. Index.

Long Description

A useful, interdisciplinary engineering approach to urban hydrology Urban Hydrology, Hydraulics, and Stormwater Quality offers a unique, integrated engineering approach to controlling and managing the water resources of cities and urban communities. By addressing hydrologic analysis in the urban environment, using physically based methods, and focusing on stormwater quality, this interdisciplinary approach presents all aspects of urban hydrology more closely aligned to real-world practice than traditional hydrology books. With an emphasis on application, this cutting-edge guide thoroughly covers urban watershed management, urban drainage system design, and stormwater quality management, complete with logic-driven questions reinforcing the fundamental, qualitative, quantitative, and extended application concepts discussed in each chapter. Relying heavily on numerical techniques addressed throughout the book, two of the most widely used computer modeling programs in the industry are presented: The Corps of Engineers HEC-HMS model The Environmental Protection Agency SWMM model Urban Hydrology, Hydraulics, and Stormwater Quality is a great textbook for students in civil and environmental engineering, as well as a handy resource for professional civil engineers, hydrologists, urban planners, and environmental engineers.

Feature

Urban Hydrology, Hydraulics, and Stormwater Quality presents an integrated, interdisciplinary approach that is favored by the nation?s public utilities and public planning and administrative bodies.

• Covers the spectrum of urban watershed management, urban hydraulic systems, and overall stormwater management.
• Provides a practical introduction to urban hydrology.
• Covers two popular, non-proprietary computer-modeling programs: HEC-HMS (U.S. Army Corps of Engineers) and SWMM (U.S. EPA).

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