FIFTH EDITION Hydrology and Floodplain Analysis PHILIP B. BEDIENT Rice University WAYNE C. HUBER Oregon State University BAXTER E. VIEUX University of Oklahoma International Edition contributions by MURALIDHAR MALLIDU K.L.E Institute of Technology, Hubli Upper Saddle River Boston Columbus San Francisco New York Indianapolis London Toronto Sydney Singapore Tokyo Montreal Dubai Madrid Hong Kong Mexico City Munich Paris Amsterdam Cape Town Vice President and Editorial Director, ECS: Print and Media Editor, International Edition: Marcia J. Horton Ashwitha Jayakumar Executive Editor: Holly Stark Project Editor, International Edition: Editorial Assistant: Carlin Heinle Jayashree Arunachalam Vice-President, Production: Vince O’Brien Publishing Administrator, International Edition: Marketing Manager: Tim Galligan Hema Mehta Marketing Assistant: Jon Bryant Senior Manufacturing Controller, Production, Permissions Project Manager: Karen Sanatar International Edition: Trudy Kimber Senior Managing Editor: Scott Disanno Creative Director: Jayne Conte Production Liaison: Clare Romeo Cover Design: Suzanne Behnke Production Manager: Pat Brown Cover Photo: Dan Wallach Publisher, International Edition: Full-Service Project Management: Angshuman Chakraborty Sandeep Rawat/Aptara®, Inc. Acquisitions Editor, International Edition: Printer/Binder: Courier/Westford Somnath Basu Typeface: Times Ten Roman Publishing Assistant, International Edition: Shokhi Shah Pearson Education Limited Edinburgh Gate Harlow Essex CM20 2JE England and Associated Companies throughout the world Visit us on the World Wide Web at: www.pearsoninternationaleditions.com © Pearson Education Limited 2013 The right of Philip B. Bedient, Wayne C. Huber and Baxter E. Vieux to be identified as authors of this work has been asserted by them in accordance with the Copyright, Designs and Patents Act 1988. Authorized adaptation from the United States edition, entitled Hydrology and Floodplain Analysis, 5th edition, ISBN 978-0-13-256796-1 by Philip B. Bedient, Wayne C. Huber and Baxter E. Vieux published by Pearson Education © 2013. All rights reserved. No part of this publication may be reproduced, stored in a retrieval system, or transmitted in any form or by any means, electronic, mechanical, photocopying, recording or otherwise, without either the prior written permission of the publisher or a licence permitting restricted copying in the United Kingdom issued by the Copyright Licensing Agency Ltd, Saffron House, 6–10 Kirby Street, London EC1N 8TS. All trademarks used herein are the property of their respective owners. The use of any trademark in this text does not vest in the author or publisher any trademark ownership rights in such trademarks, nor does the use of such trademarks imply any affiliation with or endorsement of this book by such owners. Microsoft and/or its respective suppliers make no representations about the suitability of the information contained in the documents and related graphics published as part of the services for any purpose. All such documents and related graphics are provided “as is” without warranty of any kind. Microsoft and/or its respective suppliers hereby disclaim all warranties and conditions with regard to this information, including all warranties and conditions of merchantability, whether express, implied or statutory, fitness for a particular purpose, title and non-infringement. In no event shall Microsoft and/or its respective suppliers be liable for any special, indirect or consequential damages or any damages whatsoever resulting from loss of use, data or profits, whether in an action of contract, negligence or other tortious action, arising out of or in connection with the use or performance of information available from the services. The documents and related graphics contained herein could include technical inaccuracies or typographical errors. Changes are periodically added to the information herein. Microsoft and/or its respective suppliers may make improvements and/or changes in the product(s) and/or the program(s) described herein at any time. Partial screen shots may be viewed in full within the software version specified. Microsoft® and Windows® are registered trademarks of the Microsoft Corporation in the U.S.A. and other countries. This book is not sponsored or endorsed by or affiliated with the Microsoft Corporation. ISBN 10: 0-273-77427-1 ISBN 13: 978-0-273-77427-3 British Library Cataloguing-in-Publication Data A catalogue record for this book is available from the British Library 10 9 8 7 6 5 4 3 2 1 14 13 12 11 10 Typeset in Times Ten Roman by Sandeep Rawat/Aptara®, Inc Printed and bound by Courier Westford in The United States of America The publisher’s policy is to use paper manufactured from sustainable forests. Dedication To Cindy, Eric, and Courtney, to my parents for their guidance, and to my teachers, and to all my students over the past 35 years. P.B.B. To My Family W.C.H. To my wife, Jean, and to our children William, Ellen, Laura, Anne, and Kimberly, and to my parents B.E.V. CONTENTS PREFACE 9 1 HYDROLOGIC PRINCIPLES 15 1.1 Introduction to Hydrology 15 1.2 Weather Systems 22 1.3 Precipitation 37 1.4 The Hydrologic Cycle 51 1.5 Simple Rainfall-Runoff 57 1.6 Streamflow and the Hydrograph 58 1.7 Hydrograph Analysis 61 1.8 Hydrologic Measurement 70 Summary 77 Problems 78 References 85 2 HYDROLOGIC ANALYSIS 88 2.1 Watershed Concepts 88 2.2 Unit Hydrograph Theory 92 2.3 Synthetic Unit Hydrograph Development 103 2.4 Applications of Unit Hydrographs 117 2.5 Linear and Kinematic Wave Models 122 2.6 Hydrologic Loss—Evaporation and ET 126 2.7 Hydrologic Loss—Infiltration 136 2.8 Green and Ampt Infiltration Method 142 2.9 Snowfall and Snowmelt 152 Summary 160 Problems 161 References 169 3 FREQUENCY ANALYSIS 174 3.1 Introduction 174 3.2 Probability Concepts 180 4 Contents 5 3.3 Random Variables and Probability Distributions 182 3.4 Return Period or Recurrence Interval 193 3.5 Common Probabilistic Models 197 3.6 Graphical Presentation of Data 213 3.7 Regional Analysis 225 3.8 Related Topics 227 Summary 228 Problems 229 References 239 4 FLOOD ROUTING 243 4.1 Hydrologic and Hydraulic Routing 243 4.2 Hydrologic River Routing 250 4.3 Hydrologic Reservoir Routing 259 4.4 Governing Equations for Hydraulic River Routing 267 4.5 Movement of a Flood Wave 271 4.6 Kinematic Wave Routing 274 4.7 Hydraulic River Routing 284 Summary 294 Problems 294 References 302 5 HYDROLOGIC SIMULATION MODELS 304 5.1 Introduction to Hydrologic Models 304 5.2 Steps in Watershed Modeling 308 5.3 Description of Major Hydrologic Models 309 5.4 HEC-HMS Flood Hydrograph Theory 313 5.5 Application of HEC-HMS to Watersheds 322 5.6 HEC-HMS Watershed Analysis: Case Study 333 Summary 342 Problems 342 References 346 6 URBAN HYDROLOGY 349 6.1 Characteristics of Urban Hydrology 349 6.2 Review of Physical Processes 355 6.3 Rainfall Analysis in Urban Basins 363 6.4 Methods for Quantity Analysis 373 6 Contents 6.5 Sewer System Hydraulics 387 6.6 Control Options 391 6.7 Operational Computer Models 397 6.8 Case Study 401 Summary 414 Problems 414 References 428 7 FLOODPLAIN HYDRAULICS 439 7.1 Uniform Flow 439 7.2 Uniform Flow Computations 443 7.3 Specific Energy and Critical Flow 448 7.4 Occurrence of Critical Depth 452 7.5 Nonuniform Flow or Gradually Varied Flow 453 7.6 Gradually Varied Flow Equations 453 7.7 Classification of Water Surface Profiles 458 7.8 Hydraulic Jump 462 7.9 Introduction to the HEC-RAS Model 464 7.10 Theoretical Basis for HEC-RAS 465 7.11 Basic Data Requirements (Steady State) 467 7.12 Optional HEC-RAS Capabilities 471 7.13 Bridge Modeling in HEC-RAS 472 7.14 HEC-RAS Features 478 Summary 489 Problems 490 References 4 94 8 GROUND WATER HYDROLOGY 495 8.1 Introduction 495 8.2 Properties of Ground Water 498 8.3 Ground Water Movement 503 8.4 Flow Nets 508 8.5 General Flow Equations 511 8.6 Dupuit Equation 513 8.7 Streamlines and Equipotential Lines 518 8.8 Unsaturated Flow 519 8.9 Steady-State Well Hydraulics 520 8.10 Unsteady Well Hydraulics 528 8.11 Water Wells 539 Contents 7 8.12 Ground Water Modeling Techniques 542 Summary 552 Problems 552 References 557 9 DESIGN APPLICATIONS IN HYDROLOGY 560 9.1 Introduction 560 9.2 Drainage Collection Systems 561 9.3 Design of Culverts 576 9.4 Detention Basins Used to Mitigate Project Impacts 591 9.5 Floodplain Management Design Issues 603 Summary 624 Problems 625 References 627 10 GIS APPLICATIONS IN HYDROLOGY 628 10.1 Introduction to GIS 628 10.2 General GIS Concepts 630 10.3 Digital Representation Hydrologic Parameters 636 10.4 Digital Representation of Topography 640 10.5 GIS-Based Hydrology and Hydraulics 643 10.6 Common GIS Software Programs 651 Summary 653 Online Resources 654 References 655 11 RADAR RAINFALL APPLICATIONS IN HYDROLOGY 657 11.1 Introduction 657 11.2 Radar Estimation of Rainfall 663 11.3 NEXRAD (WSR-88D) Radar System 671 11.4 Gage Adjustment of Radar 676 11.5 Hydrologic Applications 681 Summary 699 References 699 12 SEVERE STORM IMPACTS AND FLOOD MANAGEMENT 703 12.1 Introduction 703 12.2 Flood Management Issues and Basic Terminology 704 8 Contents 12.3 Structural and Nonstructural Methods of Flood Control 707 12.4 The Flood Control Paradox 715 12.5 Major Gulf Hurricanes: Katrina and Ike 717 12.6 Improved Strategies Toward Flood Management 724 Summary 731 References 731 13 CASE STUDIES IN HYDROLOGIC ENGINEERING: WATER RESOURCE PROJECTS 734 13.1 Introduction 734 13.2 The City of San Antonio—Deep in the Heart of Texas 736 13.3 The Colorado River—Taming the Wild West 747 13.4 Across the Pond—The River Thames 756 13.5 Global Climate Change and Water Resources 757 References 762 APPENDIX A SYMBOLS AND NOTATION 765 APPENDIX B CONVERSION FACTORS 768 APPENDIX C PROPERTIES OF WATER 770 APPENDIX D NORMAL DISTRIBUTION TABLES 772 APPENDIX E USEFUL HYDROLOGY-RELATED INTERNET LINKS 774 GLOSSARY 780 INDEX 798 PREFACE T he field of hydrology is of fundamental importance to civil and environ- mental engineers, hydrogeologists, and other earth scientists because of the environmental significance of water supply, major floods and droughts and their management, drainage and urban stormwater issues, floodplain man- agement, and water quality impacts. In recent years, hurricanes and storm surge have caused significant urban disasters, especially along coastal areas where urban development has expanded rapidly. This text was written to address the computational emphasis of modern hydrology at an undergrad- uate or graduate level, and to provide a balanced approach to important applications in hydrologic engineering and science. Increasing use and sophistication of personal computers has revolutionized THE EVOLUTION the daily practice of hydrology. The Internet has revolutionized the accessibil- OF HYDROLOGY ity of hydrologic data and computer models. The impact of transferring online data from governmental and scientific sources to the practicing hydrologist or student has been phenomenal. Hydrologic data, digital terrain models, and mapping software linked with hydrologic modeling have allowed complex problems to be solved. Geographical information systems (GIS) and radar rainfall have greatly improved our ability to predict hydrologic response using distributed information. A number of major improvements have been made to existing hydrologic models, such as HEC and SWMM, and advances in distributed hydrologic modeling such as Vflo. A list of important websites and links currently used routinely in hydrology is contained in Appendix E and can be found at the textbook website: h ydrology.rice.edu . • Chapter 1 : E xtensive updates and changes, and completely rewrit- NEW TO THIS ten with a more introductory coverage of topics, including simple EDITION rainfall runoff and hydrograph analysis with new examples and completely revised homework problems. • Chapter 2 : C overage of the unit hydrograph and includes hydro- logic losses such as evaporation and infiltration. New examples have been added on Green and Ampt infiltration, as well as many additional homework problems. • Chapter 4 : E xpanded coverage and new examples on flood routing. Many of the older numerical schemes have been simplified or removed, and new homework problems have been added to stream- line the chapter. • Chapter 5 : P resents updated methods for simulating rainfall and runoff, flood hydrograph prediction, and flood control options in a 9