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Full Description
Prepared by the Computational Fluid Dynamics Task Committee of the Water Supply, Treatment and Distribution Engineering Committee of the Water, Wastewater, and Stormwater Council of the Environmental and Water Resources Institute of the American Society of Civil Engineers
Computational Fluid Dynamics: Applications in Water, Wastewater, and Stormwater Treatment provides a valuable introduction and overview of computational fluid dynamics and how it can be used in the water and wastewater industry. This book reviews procedures for conducting flow, transport, and reaction simulations using computational fluid dynamics along with specific practical examples of water, wastewater, and stormwater treatment applications.
Computational fluid dynamics has proven to be a valuable tool for designing new and retrofitting existing water, wastewater, and stormwater systems. The availability of ever-increasing computing power further spurs the adoption of computational fluid dynamics in engineering practice and academic research for water infrastructure. This book is organized into five parts, which cover
Physical, chemical, and biological processes in water, wastewater, and stormwater treatment;
Fundamentals of computational fluid dynamics;
Water treatment technologies and CFD application case studies;
Wastewater treatment technologies and CFD application case studies; and
Stormwater treatment technologies and CFD application case studies.
Computational Fluid Dynamics: Applications in Water, Wastewater, and Stormwater Treatment will be a valuable resource to those in the water and wastewater industry, especially water engineers and designers.
Contents
List of Contributors and reviewers
Preface
Abbreviations and Acronyms
Part 1: Physical, Chemical, and Biological Processes in Water, Wastewater, and Stormwater Treatment Chapter 1 Physical Processes
by Xiaofeng Liu
Chapter 2 Chemical Processes
by Jie Zhang
Chapter 3 Biological Processes
by Jie Zhang
Part 2: Fundamentals of Computational Fluid Dynamics Chapter 4 Overview of Computational Fluid Dynamics
by Xiaofeng Liu
Chapter 5 Turbulence modeling/computational methodologies
by Andrés E. Tejada-Martínez
Chapter 6 Preprocessing
by Ruo-Qian Wang, Faissal R. Ouedraogo, and Subbu-Srikanth Pathapati
Chapter 7 Postprocessing
by Ruo-Qian Wang
Chapter 8 Verification and Validation
by Subbu-Srikanth Pathapati and René A. Camacho
Part 3. Water Treatment Technologies and CFD Application Case Studies Chapter 9 Aeration
by Tien Yee, Yovanni A. Cataño-Lopera, and Jie Zhang
Chapter 10 Sedimentation
by Xiaofeng Liu
Chapter 11 Ozone Disinfection
by Jie Zhang
Chapter 12 Pumping Intakes
by Kevin D. Nielsen, Daniel Morse, Tien Yee, and Jie Zhang
Chapter 13 Flow Distribution to Multiple Treatment Trains
by Carrie Knatz
Chapter 14 Aerated Grit Tank Improvements
by Carrie Knatz
Chapter 15 Optimization of Residence Time Distribution in Small Water Treatment Systems
by Jordan M. Wilson and Subhas Karan Venayagamoorthy
Part 4. Wastewater Treatment Technologies and CFD Application Case Studies Chapter 16 Activated Sludge Tanks
by Jie Zhang
Chapter 17 Computational Fluid Dynamics of Waste Stabilization Ponds
by Faissal R. Ouedraogo, Jie Zhang, and Andrés E. Tejada-Martínez
Chapter 18 Algae Raceway Pond
by Jie Zhang
Chapter 19 UV Disinfection
by Subbu-Srikanth Pathapati and Ed Wicklein
Part 5. Stormwater Treatment Technologies and CFD Application Case Studies Chapter 20 Stormwater Collection
by Yovanni A. Cataño-Lopera
Chapter 21 Stormwater Filtration
by Subbu-Srikanth Pathapati
Chapter 22 Stormwater Separation
by Subbu-Srikanth Pathapati
Chapter 23 Geysering
by Biao Huang, Jue Wang, and Jose Vasconcelos
