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200 10$aComputational Fluid Dynamics Modeling in Water Infrastructure $eBest Practices
205   $a1st ed.
210  1$aReston :$cAmerican Society of Civil Engineers,$d2023.
210  4$d©2023.
215   $a1 online resource (71 pages)
327   $aCover -- Half Title -- Title Page -- Copyright Page -- Contents -- Preface -- Contributors -- Acknowledgments -- Chapter 1 :  Introduction -- References -- Chapter 2 :  Domain Geometry and Process Models -- 2.1 ? Problem Formulation -- 2.2 ? Case Complexity -- 2.3 ? Adequacy of Two-Dimensional versus Three-Dimensional Modeling Approaches -- 2.4 ? Consideration of Coordinate Systems -- 2.5 ? Computational Fluid Dynamics Software Selection -- 2.6 ? Timescales -- 2.7 ? Domain Geometry -- 2.8 ? Scale of the Problem -- 2.9 ? Process Models -- 2.9.1 ? Physical Process Models -- 2.9.2 ? Biological Process Models -- 2.9.3 ? Chemical Process Models -- References -- Chapter 3 :  Meshing -- 3.1 ? Mesh Types -- 3.2 ? Characteristics of a Good-Quality Mesh -- 3.3 ? Mesh Size -- 3.4 ? Meshing Strategy -- References -- Chapter 4 :  Initial and Boundary Conditions -- 4.1 ? General Considerations -- 4.2 ? Defining Turbulence Closure Conditions at Boundaries -- 4.3 ? Cell Zone Conditions -- References -- Chapter 5 :  Numerical Methods -- 5.1 ? Discretization of Equations -- 5.2 ? Coupled versus Segregated Solver -- 5.3 ? Controlling the Rate of Convergence and Stability -- 5.3.1 ? Underrelaxation Factors -- 5.3.2 ? Solution Initialization -- 5.3.3 ? Time-Dependent Solutions -- 5.4 ? Choice of Numerical Scheme -- References -- Chapter 6 :  Choosing Turbulence Schemes -- 6.1 ? Turbulent-Resolving Strategies -- 6.1.1 ? Direct Numerical Simulation -- 6.1.2 ? Large-Eddy Simulation -- 6.1.3 ? Reynolds-Averaged Navier-Stokes -- 6.2 ? Reynolds-Averaged Navier-Stokes Closure Models -- Reference -- Chapter 7 :  Grid Independence Tests -- 7.1 ? How to Test for Sufficient Grid Resolution -- 7.2 ? Case Study -- References -- Chapter 8 :  Model Verification, Calibration, and Validation -- 8.1 ?Sources of Uncertainty in Engineering Computational Fluid Dynamics Simulations.
327   $a8.2 ? Verification -- 8.3 ? Calibration -- 8.4 ? Validation -- References -- Chapter 9 :  Documentation and Reporting -- Chapter 10 :  Quality Control -- 10.1 ? Quality Control Procedures -- 10.2 ? Why Quality Control Is Important -- Chapter 11 :  Conclusions -- Index.
330   $aThis publication introduces a general framework for providing the best computational fluid dynamics modeling practices for water infrastructure design and retrofit. It serves as a primer for developing future material for applications in the water and wastewater fields.
606   $aComputational fluid dynamics$7Generated by AI
606   $aHydraulic engineering$7Generated by AI
615  0$aComputational fluid dynamics
615  0$aHydraulic engineering
700   $aSpelman$b David$01825176
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701   $aPathapati$b Srikanth$01825178
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701   $aLee$b Johnny$0308546
701   $aKnatz$b Carrie$01825180
701   $aWang$b Ruo-Qian$01825181
701   $aZhang$b Jie$0639315
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996   $aComputational Fluid Dynamics Modeling in Water Infrastructure$94392697
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