Stormwater, Watershed, and Receiving Water Quality Modeling.

Bibliographic Details
Corporate Authors: Water Environment Federation, EBSCOhost
Format: eBook
Language:English
Published: Chicago : Water Environment Federation, 2021.
Subjects:
Online Access:Connect to the full text of this electronic book
Table of Contents:
  • Intro
  • TITLE PAGE
  • COPYRIGHT
  • CONTENTS
  • LIST OF FIGURES
  • LIST OF TABLES
  • PREFACE
  • CHAPTER 1 INTRODUCTION/HOW TO USE THE MANUAL
  • 1.0 IMPETUS FOR THE MANUAL
  • 2.0 CONTENTS
  • 3.0 WHAT IS AND IS NOT INCLUDED
  • 4.0 REFERENCES
  • 5.0 SUGGESTED READING
  • CHAPTER 2 HISTORY OF STORMWATER, WATERSHED, AND RECEIVING WATER QUALITY MODELING
  • 1.0 THE EFFECTS OF POLLUTION
  • 1.1 OBSERVED EFFECTS ON PUBLIC HEALTH
  • 1.2 HUMAN EFFECT AND CAUSE OF STORMWATER MANAGEMENT
  • 1.3 FLOOD PROBABILITY
  • 2.0 INITIAL POLLUTION QUANTIFICATION AND PREDICTION
  • 3.0 EARLY MODELS
  • 3.1 OVERVIEW OF EARLY MODEL LIMITATIONS
  • 3.2 WATER QUANTITY TO QUALITY: "DILUTION IS THE SOLUTION TO POLLUTION"
  • 4.0 HISTORY OF POLLUTION REGULATIONS
  • 4.1 CLEAN WATER ACT OF 1972
  • 4.2 CASE STUDY: CHESAPEAKE BAY TOTAL MAXIMUM DAILY LOAD
  • 5.0 REFERENCES
  • 6.0 SUGGESTED READING
  • CHAPTER 3 EVOLUTION OF STORMWATER, WATERSHED, AND RECEIVING WATER QUALITY MODELING
  • 1.0 EVOLUTION OF MODELS
  • 2.0 DRIVERS OF MODEL EVOLUTION
  • 2.1 COMPUTING AND COMMUNICATIONS
  • 2.2 GEOGRAPHIC INFORMATION SYSTEM SOFTWARE AND ONLINE DATABASES
  • 2.3 THE INTERNET
  • 2.4 CENTRALIZED SERVERS AND CLOUD COMPUTING
  • 3.0 ROLE OF RESEARCH
  • 4.0 ROLE OF REGULATIONS
  • 5.0 OTHER DRIVERS
  • 6.0 TRENDS IN WATER MANAGEMENT AND POTENTIAL DRIVERS FOR THE FUTURE
  • 6.1 STORMWATER MANAGEMENT REGULATIONS
  • 6.2 CHANGING NATURE OF POLLUTION PROBLEMS
  • 6.3 EMERGING CONTAMINANTS AND PATHOGENS
  • 6.4 OPTIMIZATION TO DEVELOP ECONOMICAL SOLUTIONS
  • 6.5 ONE WATER HOLISTIC APPROACH TO MANAGE WATER SYSTEMS
  • 6.6 EXTREME EVENTS AFFECTING STORMWATER QUALITY AND QUANTITY
  • 6.7 CHANGING NATURE OF POLLUTION PROBLEMS
  • 7.0 SUMMARY AND CONCLUSION
  • 8.0 REFERENCES
  • CHAPTER 4 TODAY'S MODELS
  • 1.0 INTRODUCTION
  • 2.0 WATERSHED QUALITY MODELS
  • 2.1 ANSWERS
  • 2.2 U.S. ENVIRONMENTAL PROTECTION AGENCY SCREENING PROCEDURES
  • 2.3 REGRESSION METHOD
  • 2.4 SIMPLE METHOD
  • 2.5 WATERSHED ANALYSIS RISK MANAGEMENT FRAMEWORK (WARMF)
  • 2.6 AGRICULTURAL NON-POINT SOURCE POLLUTION MODELING SYSTEM (AGNPS)
  • 2.7 GENERALIZED WATERSHED LOADING FUNCTIONS (GWLF)
  • 2.8 HYDROLOGIC SIMULATION PROGRAM FORTRAN (HSPF)/LOADING SIMULATION PROGRAM IN C++
  • 2.9 SOIL AND WATER ASSESSMENT TOOL (SWAT)
  • 2.10 WATER EROSION PREDICTION PROJECT (WEPP)
  • 3.0 URBAN STORMWATER QUALITY MODELS
  • 3.1 PROGRAM FOR PREDICTING POLLUTING PARTICLE PASSAGE THROUGH PITS, PUDDLES, AND PONDS'URBAN CATCHMENT MODEL (P8-UCM)
  • 3.2 SOURCE LOADING AND MANAGEMENT MODEL (SLAMM)/WINSLAMM
  • 3.3 NATIONAL STORMWATER CALCULATOR
  • 3.4 STORMWATER MANAGEMENT MODEL (SWMM)
  • 3.5 WATERSHED TREATMENT MODEL
  • 4.0 RECEIVING WATER QUALITY MODELS
  • 4.1 HYDROLOGIC ENGINEERING CENTER RIVER ANALYSIS SYSTEM (HEC-RAS)
  • 4.2 QUAL2E
  • 4.3 WATER QUALITY ANALYSIS SIMULATION PROGRAM (WASP)
  • 4.4 TOXMOD
  • 4.5 CE-QUAL-ICM
  • 4.6 CE-QUAL-RIV1
  • 4.7 THE RIVER HYDRODYNAMICS MODEL (RIVMOD-H)