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机译:化学,物理和生物过程的解纠缠有助于发展好氧废水的定量结构-生物降解关系。
Department of Environmental Science Institute for Water and Wetland Research Radboud University PO Box 9010 6500 GL Nijmegen the Netherlands Eidgenossische Technische Hochschule (ETH) Zurich Laboratory of Inorganic Chemistry Vladimir-Frelog-Weg 1 8093 Zurich Switzerland;
Department of Environmental Science Institute for Water and Wetland Research Radboud University PO Box 9010 6500 GL Nijmegen the Netherlands Institute of Environmental Sciences Leiden University 2300 RA Leiden the Netherlands;
Department of Environmental Science Institute for Water and Wetland Research Radboud University PO Box 9010 6500 GL Nijmegen the Netherlands;
Research Programme on Biomedical Informatics (GRIB). Institut Hospital del Mar d'Investigacions Mediques (1M1M) Dept. of Experimental and Health Sciences Universitat Pompeu Fabra Dr. Aiguader 88 08003 Barcelona Spain;
Institute of Environmental Sciences Leiden University 2300 RA Leiden the Netherlands National Institute of Public Health and the Environment PO Box 1. 3720 BA Bilthoven. the Netherlands;
Department of Environmental Science Institute for Water and Wetland Research Radboud University PO Box 9010 6500 GL Nijmegen the Netherlands Department of Science Faculty of Management Science & Technology Open University Valkenburgerweg 177 6419 AT Heerlen the Netherlands;
Biodegradation; QSBR; Aerobic; Wastewater; Micropollutants;
机译:酱料生产废水的物理化学和好氧生物处理相结合
机译:用于从废水中除去新出现的污染物的物理,生物,化学和杂种处理技术的最新发展
机译:越来越重要的身体/化学过程在可持续废水处理系统的开发和应用中的显着性
机译:通过耦合物理化学方法和生物过程优化微电子废水处理系统
机译:通过混凝,化学氧化和生物降解的单一和整合过程处理纺织印染废水
机译:杂交膜方法在先进废水处理中偶联分离和生物或化学反应的应用
机译:化学,物理和生物过程的解剖助致有氧废水处理的定量结构 - 生物降解关系的发展
机译:利用物理,化学和生物过程处理蓝蟹加工厂废水