| Description |
1 online resource (461 p.) |
| Series |
Manuals and Reports on Engineering Practice Ser. ; v.150 |
|
Manuals and Reports on Engineering Practice Ser
|
| Contents |
Intro -- Book_5114_C000 -- Half Title -- Title Page -- Copyright Page -- Contents -- Foreword -- Preface -- TMDL Analysis and Modeling Task Committee -- Blue-Ribbon Panel Reviewers -- Contributing Authors -- Acknowledgments -- Executive Summary -- Book_5114_C001 -- CHAPTER 1 : Introduction -- 1.1 Definitions and History of the Total Maximum Daily Load Approach -- 1.1.1 Total Maximum Daily Load Definition and Approach -- 1.1.2 History of the Total Maximum Daily Load Approach to Water Quality-Based Management -- 1.2 Process of Determining Total Maximum Loads |
|
1.2.1 Procedure for Total Maximum Daily Load Determination, Allocation, and Implementation Planning -- 1.2.1.1 Identification -- 1.2.1.2 Determination -- 1.2.1.3 Allocation -- 1.2.1.4 Implementation planning and compliance -- 1.2.2 Synoptic and Monitoring Data Requirements -- 1.3 Modeling Required to Determine a Total Maximum Daily Load -- 1.4 Benefits of the Total Maximum Daily Load Approach -- 1.5 Purpose of This Manual of Practice -- 1.6 Intended Audience for This Manual -- 1.7 Organization of This Manual -- References -- Book_5114_C002 -- Chapter 2 : Watershed Models |
|
2.1 Introduction -- 2.2 Brief Descriptions of the Selected Watershed Models -- 2.2.1 Agricultural Nonpoint-Source and Annualized Agricultural Nonpoint-Source Models -- 2.2.2 ANSWERS-2000 -- 2.2.3 Dynamic Watershed Simulation Model -- 2.2.4 Gridded Surface and Subsurface Hydrologic Analysis -- 2.2.5 Generalized Watershed Loading Function -- 2.2.6 Hydrologic Engineering Center-Hydrologic Modeling System -- 2.2.7 Hydrological Simulation Program-Fortran -- 2.2.8 Kinematic Runoff and Erosion -- 2.2.9 Loading Simulation Program in C++ |
|
2.2.10 MIKE Système Hydrologique Européen -- 2.2.11 Soil and Water Assessment Tool -- 2.2.12 Storm Water Management Model -- 2.2.13 Watershed Assessment Model -- 2.2.14 Watershed Analysis Risk Management Framework -- 2.3 Analyses of Models: Suitability for Total Maximum Daily Loads -- 2.3.1 Key Characteristics and Capabilities of the Models -- 2.3.2 Hydrologic Simulations in the Models -- 2.3.3 Water Quality Simulations in the Models -- 2.3.4 Strengths and Limitations of the Models and Suitability for Total Maximum Daily Loads |
|
2.4 Summary, Conclusions, and Recommendations -- 2.5 State-of-the-Art and State-of-the-Practice -- References -- Book_5114_C003 -- CHAPTER 3 : Receiving Water Quality Models -- 3.1 Introduction -- 3.2 Receiving Water Quality Models for Total Maximum Daily Load Applications -- 3.2.1 Corps of Engineers Integrated Compartment Water Quality Model |
| Summary |
MOP 150 provides detailed descriptions of several watershed and receiving water quality models used in total maximum daily load (TMDL) analysis and modeling, highlighting recent advancements in TMDL development and implementation |
| Notes |
Description based upon print version of record |
|
3.2.1.1 Model Background and Capabilities. Corps of Engineers Integrated Compartment Water Quality Model (CE-QUAL-ICM), or simply referred to as ICM, is a multidimensional water quality model developed by US Army Corps of Engineers ( USACE 2014 )-En |
| Form |
Electronic book
|
| Author |
Camacho-Rincon, Rene A
|
|
Chao, Xiaobo
|
|
Fang, Xing
|
|
Frost, William H
|
|
Hantush, Mohamed M
|
|
Imen, Sanaz
|
|
Iyer, Seshadri S
|
|
Kumar, Saurav
|
|
La Plante, Rosanna J
|
| ISBN |
9780784483824 |
|
0784483825 |
|
