The classic guide to water and wastewater engineering returns
Water and wastewater engineering is a crucial branch of civil engineering, dealing with water resources and with the challenges posed by water and wastewater. Generations of engineers have developed techniques for purifying, desalinating, and transforming water and wastewater, techniques which have only grown more critical as climate change and global population growth create new challenges and opportunities. There has never been a more urgent need for a comprehensive guide to the management of water and its various engineering subdisciplines.
Water and Wastewater Engineering: Hydraulics, Hydrology and Management, 4th edition offers key fundamentals in a practical context to engineers and engineering students. Updated to address growing urbanization and industrialization, with corresponding stress on water and wastewater systems, this vital textbook has been fully revised to reflect the latest research and case studies. This volume focuses primarily with hydrology and hydraulics, along with chapters treating groundwater and surface water sources.
Readers of Hydraulics, Hydrology and Management will also find: - Coverage of water supply, water sources, water distribution, and more - Detailed treatment of both sanitary sewer and urban stormwater drainage - In-depth analysis of infrastructure issues with respect to water resources, pumping, and handling
This textbook is ideal for advanced students in civil, environmental, and chemical engineering departments, as well as for early career engineers, plant managers, and urban and regional planners.
Table of Contents
About the Authors xxi
Preface xxii
Dedication and Acknowledgments xxv
About the Companion Website xxvi
1 Introduction to Water Systems 1
2 Water Sources: Surface Water 23
3 Water Sources: Groundwater 50
4 Quantities of Water and Wastewater Flows 98
5 Water Hydraulics, Transmission, and Appurtenances 131
6 Water Distribution Systems: Components, Design, and Operation 209
7 Water Distribution Systems: Modeling and Computer Applications 245
8 Pumping, Storage, Dual Water Systems, and Distribution System Management 279
9 Cross-connection Control 311
10 Introduction to Wastewater Systems 342
11 Hydrology: Rainfall and Runoff 362
12 Urban Runoff and Combined Sewer Overflow Management 399
13 Hydraulics of Sewer Systems 447
14 Design of Sewer Systems 486
15 Sewerage Systems: Modeling and Computer Applications 542
16 Sewer Material, Appurtenances, and Maintenance 581
17 Trenchless Technology and Sewer System Rehabilitation 623
18 Alternative Wastewater Collection Systems 647
19 Engineering Projects Management 684
20 Prevention Through Design and System Safety 699
Appendix 1 Nomenclature and Abbreviations 739
Appendix 2 Units 743
Appendix 3 Physical Properties of Water 750
Appendix 4 Vapor Pressure and Surface Tension of Water in Contact with Air 753
Appendix 5 Area Under the Normal Probability Curve 754
Appendix 6 Flow Velocity and Discharge Rate for Pipes Flowing Full 756
Appendix 7 Flow Velocity and Discharge Rate for Pipes Flowing Full 757
Appendix 8 Minimum Grades and Capacities of Circular Conduits Flowing Full 758
Appendix 9 Hydraulic Elements of Circular Conduits 759
Appendix 10 Basic Hydraulic Elements of Circular Conduits for All Values of Roughness and Slope 760
Appendix 11 Hydraulic Elements of Circular Conduits with Equal Self-Cleansing Properties at All Depths 761
Appendix 12 Values of Hydraulic Elements in Circular Conduits 762
Appendix 13 Alternate Stages and Critical Depths of Flow in Circular Conduits 763
Appendix 14 Nomograms for Solution of Hazen-Williams Pipe Flow Equation 764
Appendix 15 Nomograms for Solution of Manning’s Equation for Pipes Flowing Full 770
Appendix 16 U.S. Army Corps of Engineers Civil Works Construction Yearly Average Cost Index for Utilities 776
Appendix 17 Equivalent Pipe Length to Head Loss in Fittings 777
Appendix 18 Simplified Overland Flow Time Determination for Urban Drainage 778
Appendix 19 Loss Coefficients for Transitions and Fittings 779
Index 781
