Wastewater Conveyance and Nonpoint Source Pollution Control: Theory and Design Examples presents the fundamentals of fluid mechanics related to wastewater collection, conveyance, and pumping; the principles of surface water hydrology and watershed management; and the control of nonpoint source pollution. Furthermore, it examines the important design parameters in conveyance, stormwater runoff, nonpoint source pollution control, and combined sewer overflows in the overall context of watershed management. It provides numerous design examples and step-by-step solutions to enhance the readers’ comprehension and deeper understanding of the basic concepts of the topics discussed. It serves as a useful guide for researchers, professionals, students, and those who work for engineering firms, for equipment manufacturers, and as technical personnel involved with wastewater conveyance.
This book
- Provides 351 theory and design examples and step-by-step solutions to design wastewater collection and conveyance systems
- Aids students and professionals in learning and mastering the problem-solving skills needed for professional engineering (P.E.) exams
- Includes useful appendices that include various standards, constants, and properties
Table of Contents:
Lis of Examples and Solutions
Preface
Acknowledgments
Authors
CHAPTER 1 Introduction
CHAPTER 2 Significant Figures and Units of Expression
CHAPTER 3 Sampling and Data Analysis
CHAPTER 4 Sources, Flow Rates and Characteristics of Municipal Wastewater, and Flow Equalization
CHAPTER 5 Fundamentals of Applied Hydraulics
CHAPTER 6 Wastewater Conveyance, Watershed Management, and Nonpoint Source Pollution: Objectives and Design Considerations
CHAPTER 7 Flow Measurement
CHAPTER 8 Sanitary and Storm Sewer Design
CHAPTER 9 Pumps and Pumping Stations
CHAPTER 10 Best Watershed Management Practices for Control of Nonpoint Source Pollution
CHAPTER 11 Management of Combined Sewer: Overflow
CHAPTER 12 Conveyance and Disposal Structures for Outfall Sewer
Appendix A: Abbreviations, Symbols, Basic Information of Elements, Useful Constants, and Student’s t Distribution Test and Linear Regression r2 Tables
Appendix B: Physical Constants and Properties of Water, Solubility of Dissolved Gases in Water, Barometric Pressure, Hydrological Data, and Hydrodynamic Separation Devices
Appendix C: Minor Head Loss Coefficients for Pressure Conduits and Open Channels, Normal Commercial Pipe Sizes
Appendix D: Unit Conversions
About the Author :
Syed R. Qasim is a Professor Emeritus in the Department of Civil Engineering. He received his PhD and MSCE degrees from West Virginia University and his BSCE degree from India. His principal research and teaching interests include water and wastewater quality; treatment processes and plant design; industrial pollution control; solid and hazardous waste management; and environmental impact assessment. Dr. Qasim has served nationally and internationally as a consultant with government agencies and private concerns, and has over 50 years of experience as an educator, researcher, and practitioner in the related fields of environmental engineering. He is the recipient of many distinguished research awards, including a Fulbright Fellowship; an invited participant by the United Nations Development Program (UNDP) under the Transfer of Knowledge through Expatriate Nationals (TOKTEN-India) program; and a reviewer of concept papers and research proposals for the National Science Foundation and many national and international organizations. Syed Qasim Endowed Professorship was established in the Environmental Engineering area of the Civil Engineering Department to honor his service to the department, as well as furthering the Environmental Engineering profession. Dr. Qasim has authored/co-authored five books, over 200 technical papers, encyclopedia and book chapters, and research reports, and has conducted over 50 short courses, seminars, and training programs nationally and internationally. Dr. Qasim is a life member and Fellow of the American Society of Civil Engineers, a life member of the Water Environment Federation, a member of the American Water Works Association, and a registered professional engineer in Texas.
Habib Ahmari is an Associate Professor in the Department of Civil Engineering at the University of Texas at Arlington (UTA). He received his Ph.D. in Hydrotechnical Engineering from Queen’s University, Canada, and his M.Sc. and B.Sc. degrees in Civil Engineering from Sharif University of Technology, Iran. He is a licensed professional engineer in Texas, USA, and Ontario, Canada. Dr. Ahmari’s principal research and teaching interests include hydraulics and hydrology, sediment transport and stream geomorphology, and stormwater management and nonpoint source pollution. He has more than 20 years of experience as an educator, researcher, and practitioner in environmental water resources engineering. He has served nationally and internationally as a consultant with government agencies and private organizations, and has led research projects funded by federal and state agencies. He regularly reviews proposals and manuscripts for national and international funding agencies and journals. Dr. Ahmari has authored or co-authored one book, two book chapters, more than 40 peer-reviewed technical papers, and numerous research reports. He has also contributed to professional training, seminars, and outreach programs in water resources engineering. He is an active member of the American Society of Civil Engineers (ASCE) and the International Association for Hydro-Environment Engineering and Research (IAHR).
