| Description |
1 online resource (335 p.) |
| Contents |
Cover -- Half Title -- Title Page -- Copyright Page -- Contents -- Preface -- Authors -- 1 Introduction -- 1.1 Water resources and water quality management -- 1.1.1 Hydrologic cycle -- 1.1.2 Distribution of freshwater resources on the earth -- 1.1.3 Hydrologic analysis for water quality management -- 1.2 Water environment modeling in water pollution control -- 1.2.1 Evolution of water pollution control -- 1.2.1.1 Minimum treatment requirements for sewage discharge -- 1.2.1.2 Permit system for urban sewage and industrial wastewater discharge |
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1.2.1.3 Federal government funding for the construction of wastewater treatment plants -- 1.2.2 Water environment modeling fundamentals: (1) surface water -- 1.2.3 Water environment modeling fundamentals: (2) groundwater -- 1.3 Water quality model applications -- 1.3.1 Uncertainty in modeling analysis -- 1.3.2 Basic procedures for water environment model application -- 1.3.2.1 Mathematical formulation -- 1.3.2.2 Mathematical solution -- 1.3.2.3 Model calibration -- 1.3.2.4 Model verification -- 1.3.2.5 Model application -- 1.4 Prospects for water environment modeling |
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1.4.1 Integration of traditional and linear systems modeling approaches -- 1.4.2 Modeling with modern information technology -- 1.4.3 Modeling with modern biological technology -- 1.4.4 Modeling the fate and transport of emerging contaminates in water environment -- Exercises -- References -- 2 Environmental hydraulics and modeling -- 2.1 Mass conservation principle -- 2.1.1 Mass continuity equation -- 2.1.2 Mass transport equation -- 2.2 Molecular diffusion -- 2.2.1 The basic molecular diffusion model and its analytical solution -- 2.2.2 The random walk model of molecular diffusion |
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2.2.3 One-dimensional advection-diffusion analysis -- 2.3 Turbulent diffusion and shear flow dispersion -- 2.3.1 Turbulent diffusion and advection-turbulent diffusion equation -- 2.3.2 Shear flow dispersion and advection-dispersion equation -- 2.4 Physically based water environment modeling -- 2.4.1 Simulation of mass transport mechanisms -- 2.4.2 Simulation of hydrodynamic mechanisms -- 2.4.3 Mathematical formulation of physically based water environment models -- 2.5 System-based water environment modeling -- 2.5.1 Mathematical formulation of system-based models |
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2.5.2 Compatibility of physically based and system-based modeling approaches -- 2.5.3 System identification in linear system water environment modeling -- 2.5.3.1 The method of physical parameterization -- 2.5.3.2 The inverse method -- 2.5.3.3 The method of system parametrization -- Exercises -- References -- 3 Numerical methods for water environment modeling -- 3.1 Analytical and numerical solutions of water environment models -- 3.2 Finite difference method -- 3.2.1 Taylor expansion and scheme construction -- 3.2.2 Truncation error and order of accuracy -- 3.2.3 Consistency and convergence |
| Notes |
Description based upon print version of record |
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3.2.4 Stability |
| Subject |
Water quality -- Measurement
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Streamflow -- Mathematical models
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Environmental hydraulics -- Mathematics
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Streamflow -- Mathematical models.
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Water quality -- Measurement.
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| Form |
Electronic book
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| Author |
Lin, Pengzhi
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|
Xiao, Hong
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| ISBN |
9781000469783 |
|
1000469786 |
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