Applications and Technologies Such As Nitrogen and Phosphorus Removal, Membrane Technology and the Assessment and Selection of Aeration Systems Are Examined Inside 'Fundamentals of Biological Wastewater Treatment'.DUBLIN, Ireland -- Research and Markets (http://www.researchandmarkets.com/reports/c44815) has announced the addition of Fundamentals of Biological Wastewater Treatment to their offering. This concise introduction to the fundamentals of biological treatment of wastewater describes how to model and integrate biological steps into industrial processes. The book first covers the chemical, physical and biological basics, including wastewater characteristics, microbial metabolism, determining stoichiometric stoi·chi·om·e·try n. 1. Calculation of the quantities of reactants and products in a chemical reaction. 2. The quantitative relationship between reactants and products in a chemical reaction. equations for catabolism catabolism (kətăb`əlĭz'əm), subdivision of metabolism involving all degradative chemical reactions in the living cell. and anabolism anabolism: see metabolism. , measurements of mass transfer and respiration rates and the aerobic treatment of wastewater loaded with dissolved organics. It then moves on to deal with such applications and technologies as nitrogen and phosphorus removal, membrane technology, the assessment and selection of aeration aeration /aer·a·tion/ (ar-a´shun) 1. the exchange of carbon dioxide for oxygen by the blood in the lungs. 2. the charging of a liquid with air or gas. aer·a·tion n. systems, simple models for biofilm Biofilm An adhesive substance, the glycocalyx, and the bacterial community which it envelops at the interface of a liquid and a surface. When a liquid is in contact with an inert surface, any bacteria within the liquid are attracted to the surface and adhere reactors and the modeling of activated sludge processes. A final section looks at the processing of water and the treatment of wastewater integrated into the production process. Essential reading for chemists, engineers, microbiologists, environmental officers, agencies and consultants, in both academia and industry. Author information Udo Wiesmann was Professor of Chemical Engineering at the Technical University of Berlin (Germany) from 1971 - 2003. He changed his field of work from of the topic of Fuel Technology (1961-1968) to Reaction Engineering (1968 - 1972) and then to Environmental Engineering (1972-2005). His research centered on Biological Wastewater Treatment. His special interest was in kinetic studies of bacteria growth and substrate removal from wastewater and reaction engineering investigations. He has published some 130 scientific papers and presented lectures in six different fields of environmental engineering. Professor Wiesmann was speaker of the German Cooperative Research Program SFB SFB Sonderforschungsbereich SFB Sender Freies Berlin (German Radio and TV Station) SFB Star Fleet Battles (game) SFB San Francisco Ballet SFB Society for Biomaterials SFB ScaleFactor Band 196 "Biological Treatment of Industrial Wastewater" during 1991-1996 and served in work groups on environmental technology and committees of technical and scientific journals on several associations. In Su Choi has been a research assistant at the Institute of Chemical Engineering of the Technical University of Berlin (Germany) since 2000. He obtained his B.S. degree in Environmental Engineering from the University of Seoul Not to be confused with Seoul National University. The University of Seoul is a public university operated by the municipal government of Seoul Metropolitan City, South Korea. The campus stands in Jeonnong-dong, Dongdaemun-gu. (Korea) and his Dipl.-Ing. degree from the Technical University of Berlin. He first studied the mass transfer controlled ozonation of highly concentrated azo dyes and was employed in a Korean-German project to investigate the advantages of solid carriers for bacteria in bioreactors for nitrification nitrification /ni·tri·fi·ca·tion/ (ni?tri-fi-ka´shun) the bacterial oxidation of ammonia to nitrite and then to nitrate in the soil. ni·tri·fi·ca·tion n. 1. . In 2005 he completed his Dr.-Ing. degree on the topic of Aerobic Degradation of Surfactant Surfactant Definition Surfactant is a complex naturally occurring substance made of six lipids (fats) and four proteins that is produced in the lungs. It can also be manufactured synthetically. and Nitrification in a Membrane Bioreactor bioreactor a container in which living organisms carry out a biological reaction. with CO2 and O2 Gas Analysis at the Technical University of Berlin. His research is currently focused on water and wastewater treatment by both chemical and biological means. Eva-Maria Dombrowski is Professor for Biochemical and Chemical Engineering at the Technische Fachhochschule Berlin (TFH TFH Technische Fachhochschule (German: Engeneering College/University) TFH 24 Hours (Movie) TFH Thread from Hell (newsgroups) TFH Tinfoil Hat TFH Thanks For Helping , University of Applied Science), Germany. She studied Chemical Engineering at the Technical University of Berlin and obtained her PhD researching the sedimentation of activated sludge. She spent eight years as a staff scientist at the State Environmental Agency in Berlin in the field of treatment of inorganic compounds of exhaust gas and the water emission situation before being named professor for Biochemical and Chemical Engineering in 1996. Professor Dombrowskis research is focused on the biological treatment of wastewater and solid waste. Since 2001 she has been chairman of the Hypatia Program, a post-graduate-program for women at the TFH Berlin. Content Outline: Preface List of Symbols and Abbreviations. 1 Historical Development of Wastewater Collection and Treatment. 2 Wastewater Characterization and Regulations. 3 Microbial Metabolism. 4 Determination of Stoichiometric Equations for Catabolism and Anabolism. 5 Gas/Liquid Oxygen Transfer and Stripping. 6 Aerobic Wastewater Treatment in Activated Sludge Systems. 7 Aerobic Treatment with Biofilm Systems. 8 Anaerobic anaerobic /an·aer·o·bic/ (an?ah-ro´bik) 1. lacking molecular oxygen. 2. growing, living, or occurring in the absence of molecular oxygen; pertaining to an anaerobe. Degradation of Organics. 9 Biodegradation of Special Organic Compounds. 10 Biological Nutrient Removal. 11 Modelling of the Activated Sludge Process. 12 Membrane Technology in Biological Wastewater Treatment. 13 Production Integrated Water Management and Decentralized Effluent Treatment. Subject Index For more information visit http://www.researchandmarkets.com/reports/c44815 |
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