Utilization of a bioluminescence toxicity assay for optimal design of biological and physicochemical wastewater treatment processes

A. Brenner, S. Belkin, S. Ulitzur, A. Abeliovich
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引用次数: 5

Abstract

A comprehensive laboratory investigation was conducted to test the feasibility of employing biological and physicochemical treatment processes for complex wastewaters discharged by several chemical industries. Results obtained during this study indicated that the wastes contain a fraction of toxic and nonbiodegradable organic matter, which limits the implementation of a conventional biological treatment process for the combined wastewater stream. Toxicity, as measured by a bioluminescence assay (Microtox), served as a valuable tool to assess biological treatability of various waste sources, with the aim to select an economically feasible and environmentally acceptable treatment/management program for an industrial park. Toxicity values served as quantitative indices for the establishment of baseline data of removability potential, defined either by biodegradation or carbon adsorption. This removability data enabled identification of problematic waste sources, which are only partially biodegradable and/or possess considerable toxicity. Further investigation of the problematic waste streams focused on the evaluation of activated carbon adsorption characteristics, using toxicity balances instead of traditional chemical determinations. This method could be successfully employed to yield simultaneously both adsorption characteristics and an assessment of the impact of the treated effluent on biota in receiving waters. © 1994 by John Wiley & Sons, Inc..
利用生物发光毒性试验优化设计生物和物理化学废水处理工艺
进行了一项全面的实验室调查,以测试采用生物和物理化学处理工艺处理几个化学工业排放的复杂废水的可行性。本研究的结果表明,废水中含有一部分有毒和不可生物降解的有机物质,这限制了常规生物处理工艺对组合废水流的实施。通过生物发光试验(Microtox)测量毒性,作为评估各种废物来源的生物可处理性的宝贵工具,目的是为工业园区选择经济上可行且环境上可接受的处理/管理方案。毒性值作为建立可去除性基线数据的定量指标,通过生物降解或碳吸附来定义。这种可移除性数据能够识别出有问题的废物来源,这些废物只能部分可生物降解和/或具有相当大的毒性。对有问题的废物流的进一步研究集中在评估活性炭的吸附特性,使用毒性平衡代替传统的化学测定。该方法可以成功地用于同时产生吸附特性和评估处理后的废水对接收水中生物群的影响。©1994 by John Wiley & Sons, Inc.。
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