Introduction to Environmental Engineering, Volume 1
Introduction to Environmental Engineering, 4/e contains the essential science and engineering principles needed for introductory courses and used as the basis for more advanced courses in environmental engineering. Updated with latest EPA regulations, Davis and Cornwell apply the concepts of sustainability and materials and energy balance as a means of understanding and solving environmental engineering issues. With 650 end-of-chapter problems, as well as provocative discussion questions, and a helpful list of review items found at the end of each chapter, the text is both a comprehensible and comprehensive tool for any environmental engineering course. Standards and Laws are the most current and up-to-date for an environmental engineering text.
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acid activated sludge aeration air pollution alkalinity aquifer average basin biological BOD5 Ca2+ calculate carbon cells chemical chlorine coagulation coefficient collection combustion compounds concentration containing density determine diameter discharge disinfection disposal dose effects effluent emissions energy Engineering Equation estimated Example exposure factor filter flocculation flow rate groundwater hazardous waste hydraulic hydraulic conductivity incinerator landfill leachate lime liquid mass material method mg/L as CaC03 microorganisms mixed nitrogen noise operation organic overflow rate oxidation oxygen particles percent phosphorus Pollution Control precipitation pressure Problem production pumping radiation radioactive radioactive waste radon rapid sand filter rate constant reaction reactor reduce removal river sand sedimentation settling sewage shown in Figure soil solid waste solution sound sound pressure level standards storage surface suspended solids Table tank temperature toxic treatment plant truck unit velocity volume Waste Management wastewater treatment zone