Advanced Physicochemical Treatment Processes [electronic resource] / edited by Lawrence K. Wang, Yung-Tse Hung, Nazih K. Shammas.
| Call Number | 333.7 |
| Title | Advanced Physicochemical Treatment Processes edited by Lawrence K. Wang, Yung-Tse Hung, Nazih K. Shammas. |
| Physical Description | 712 p. 175 illus. online resource. |
| Series | Handbook of Environmental Engineering ; 4 |
| Contents | Potable Water Aeration -- Air Stripping -- Adsorptive Bubble Separation and Dispersed Air Flotation -- Powdered Activated Carbon Adsorption -- Diatomaceous Earth Precoat Filtration -- Tertiary Microscreening -- Membrane Filtration -- Ion Exchange -- Fluoridation and Defluoridation -- Ultraviolet Radiation for Disinfection -- Water Chlorination and Chloramination -- Waste Chlorination and Stabilization -- Dechlorination -- Advanced Oxidation Processes -- Chemical Reduction/Oxidation -- Oil Water Separation -- Evaporation Processes -- Solvent Extraction, Leaching and Supercritical Extraction. |
| Summary | Leading pollution control educators and practicing professionals describe how various combinations of different physicochemical treatment processes can be arranged to solve air, noise, and thermal pollution problems. In Advanced Physicochemical Treatment Processes, the authors discuss strategies for abating pollution by converting it into a less noxious form, using the most feasible technologies. Each chapter discusses in detail a variety of process combinations, along with technical and economic evaluations, and presents explanations of the principles behind the designs, as well as numerous variant designs useful to practicing engineers. The emphasis throughout is on developing the necessary engineering solutions from fundamental principles of chemistry, physics, and mathematics. The authors also include up-to-date references, cost data, design methods, guidance on the installation and operation of various process equipment and systems, and Best Available Technologies (BAT) for water pollution control, wastewater treatment, and water purification. |
| Added Author | Wang, Lawrence K. editor. Hung, Yung-Tse. editor. Shammas, Nazih K. editor. SpringerLink (Online service) |
| Subject | ENVIRONMENT. Environment. Environment, general. |
| Multimedia |
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| Summary | Leading pollution control educators and practicing professionals describe how various combinations of different physicochemical treatment processes can be arranged to solve air, noise, and thermal pollution problems. In Advanced Physicochemical Treatment Processes, the authors discuss strategies for abating pollution by converting it into a less noxious form, using the most feasible technologies. Each chapter discusses in detail a variety of process combinations, along with technical and economic evaluations, and presents explanations of the principles behind the designs, as well as numerous variant designs useful to practicing engineers. The emphasis throughout is on developing the necessary engineering solutions from fundamental principles of chemistry, physics, and mathematics. The authors also include up-to-date references, cost data, design methods, guidance on the installation and operation of various process equipment and systems, and Best Available Technologies (BAT) for water pollution control, wastewater treatment, and water purification. |
| Contents | Potable Water Aeration -- Air Stripping -- Adsorptive Bubble Separation and Dispersed Air Flotation -- Powdered Activated Carbon Adsorption -- Diatomaceous Earth Precoat Filtration -- Tertiary Microscreening -- Membrane Filtration -- Ion Exchange -- Fluoridation and Defluoridation -- Ultraviolet Radiation for Disinfection -- Water Chlorination and Chloramination -- Waste Chlorination and Stabilization -- Dechlorination -- Advanced Oxidation Processes -- Chemical Reduction/Oxidation -- Oil Water Separation -- Evaporation Processes -- Solvent Extraction, Leaching and Supercritical Extraction. |
| Subject | ENVIRONMENT. Environment. Environment, general. |
| Multimedia |