Computational Methods in Low Impact Development Stormwater Control Measures
Sponsored by the LID Computational Methods Task Committee of the Urban Water Resources Research Council of the Environmental and Water Resources Institute of ASCE. This book provides a summary of current low impact development (LID) computation methods. This particular report focuses on the approach...
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| Médium: | E-kniha |
| Jazyk: | English |
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Reston
American Society of Civil Engineers (ASCE)
2023
American Society of Civil Engineers |
| Vydanie: | 1 |
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| ISBN: | 9780784484715, 0784484716 |
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| Abstract | Sponsored by the LID Computational Methods Task Committee of the Urban Water Resources Research Council of the Environmental and Water Resources Institute of ASCE. This book provides a summary of current low impact development (LID) computation methods. This particular report focuses on the approaches that address hydrologic or hydraulic processes such as runoff generation, infiltration, evapotranspiration, flow conveyance, and detention.Topics include: Literature review of hydrologic and hydraulic processes at work in LID systems, Overview of LID computational modeling, H&H (hydrologic and hydraulic) models, Capabilities of common modeling tools currently in use across the United States, and Case studies demonstrating the following models: MIKE+, WinSLAMM, PC SWMM, WWHM, MGS Flood. This publication will help civil engineers interested in LID stormwater control measures identify computational methods that may be the most relevant or useful to their specific use case. |
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| AbstractList | Computational Methods in Low Impact Development Stormwater Control Measuresprovides a summary of current low impact development (LID) computation methods, focusing on the approaches that address hydrologic or hydraulic processes, such as runoff generation, infiltration, evapotranspiration, flow conveyance, and detention. Sponsored by the LID Computational Methods Task Committee of the Urban Water Resources Research Council of the Environmental and Water Resources Institute of ASCE. This book provides a summary of current low impact development (LID) computation methods. This particular report focuses on the approaches that address hydrologic or hydraulic processes such as runoff generation, infiltration, evapotranspiration, flow conveyance, and detention.Topics include: Literature review of hydrologic and hydraulic processes at work in LID systems, Overview of LID computational modeling, H&H (hydrologic and hydraulic) models, Capabilities of common modeling tools currently in use across the United States, and Case studies demonstrating the following models: MIKE+, WinSLAMM, PC SWMM, WWHM, MGS Flood. This publication will help civil engineers interested in LID stormwater control measures identify computational methods that may be the most relevant or useful to their specific use case. |
| Author | Sokolovskaya Natalya Skripnik Steve Medina Daniel E Lucas William C Montalto Franco A |
| Author_xml | – sequence: 1 fullname: Barker, Bruce – sequence: 2 fullname: Beyerlein, Douglas – sequence: 3 fullname: Blake, Stephen – sequence: 4 fullname: Burger, Caroline – sequence: 5 fullname: Gregory, Mike – sequence: 6 fullname: Moin, Sheida – sequence: 7 fullname: Pitt, Robert – sequence: 8 fullname: Rossman, Lewis A – sequence: 9 fullname: Tangtrakul, Korin – sequence: 10 fullname: Voorhees, John |
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| Copyright | 2023 |
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| Publisher | American Society of Civil Engineers (ASCE) American Society of Civil Engineers |
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| Snippet | Sponsored by the LID Computational Methods Task Committee of the Urban Water Resources Research Council of the Environmental and Water Resources Institute of... Computational Methods in Low Impact Development Stormwater Control Measuresprovides a summary of current low impact development (LID) computation methods,... |
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| SubjectTerms | Civil Engineering Civil Engineering & Construction Materials Environment & Environmental Engineering Water Treatment & Quality |
| TableOfContents | Title Page
How to Use This Publication
Preface
Table of Contents
1. Fundamentals of Small-Scale Hydrology for Modeling Low Impact Development Stormwater Controls
2. Modeling Approaches
3. Summary of Sample Model Capabilities
4. Conclusions and Next Steps
Overview: Case Studies
Index History and Overview of Hydrologic and Hydraulic Models -- Motivation for Low Impact Development Computations and Modeling -- Key Interrelated Decisions Regarding Model Construction and Calibration -- Incorporating Low Impact Development Stormwater Control Measures into Hydrologic and Hydraulic Models -- Complicating Factors -- References -- Chapter 3 : Summary of Sample Model Capabilities -- Overview -- HydroCAD -- Overview -- Summary Information -- Model Capabilities -- EPA SWMM -- Overview -- Summary Information -- Model Capabilities -- MIKE+ -- Overview -- Summary Information -- Model Capabilities -- WinSLAMM Version 10.3.4 -- Overview -- Summary Information -- Model Capabilities -- Western Washington Hydrology Model -- Overview -- Summary Information -- Model Capabilities -- MGSFlood -- Overview -- Summary Information -- Model Capabilities -- PCSWMM -- Overview -- Summary Information -- Low Impact Development Modeling Capabilities -- OpenHydroQual -- Overview -- Summary Information -- References -- Chapter 4 : Conclusions and Next Steps -- Overview -- Improving the State of the Art through Monitoring -- Representing Low Impact Development Stormwater Control Measures in Hydraulic Models -- Modeling Media Flow -- Outlet Controls on Filtering Systems -- Recommendations -- References -- Overview: Case Studies -- Case Study 1: Problem Statement -- Case Study 2 : Modeling Using MIKE+ -- Case Study 3 : Modeling Using WinSLAMM -- Case Study 4 : Modeling Using PCSWMM -- Case Study 5: Modeling Using WWHM -- Case Study 6 : Modeling Using MGS Flood -- Index Cover -- Half Title -- Title Page -- Copyright Page -- Contributors -- Contents -- Preface -- How to Use This Publication -- Chapter 1 : Fundamentals of Small-Scale Hydrology for Modeling Low Impact Development Stormwater Controls -- Overview -- Introduction -- Overview of Low Impact Development Stormwater Controls -- Conservation Design Stormwater Controls -- Green Stormwater Infrastructure Controls -- Structural Stormwater Controls -- Hydrologic and Hydraulic Processes -- Infiltration -- Mechanisms Involved -- Computational Approaches -- Uniform Rate -- Horton Equation -- Richards Equation -- Green-Ampt Equation -- Van Genuchten Equation -- Macropore Effects -- HSPF Method -- Other Empirical Methods -- Evapotranspiration -- Mechanisms Involved -- Interception -- Depression Storage -- Surface Evaporation -- Plant Transpiration -- Computational Approaches -- Mass Transfer Method -- Energy Budget Method -- Penman Method -- McIlroy-Slatyer Method -- Penman-Montieth Method -- Pan Evaporation Approach -- Thornthwaite Method -- Blaney-Criddle Method -- Root Zone Methods -- Runoff Conveyance -- Subsurface Flow -- Subsurface Flow Representations -- Overland Flow Mechanisms Involved -- Computational Approaches -- Manning ' s Equation -- Kinematic Wave Equations -- Muskingum-Cunge Routing -- Dynamic Flow Equations -- Flow through Media -- Detention -- Mechanisms Involved -- Computational Approaches -- Linear Reservoirs -- Storage Indication/Modified Puls Method -- Runoff Generation -- Mechanisms Involved -- Computational Approaches -- Simple Method -- Infiltration-Based Methods -- Watershed-Based Methods -- Standard SCS CN Method -- Mishra and Singh SCS Methods -- Yu SCS Method -- WinSLAMM Method -- SCS Method Applications -- Conclusions -- References -- Chapter 2 : Modeling Approaches -- Overview |
| Title | Computational Methods in Low Impact Development Stormwater Control Measures |
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