1. Acute toxicity and chemical evaluation of coking wastewater under biological and advanced physicochemical treatment processes
- Author
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Liu Cong, Liu Rui, Chen Lujun, Ma Dehua, and Zhu Xiaobiao
- Subjects
Powdered activated carbon treatment ,Chemical Phenomena ,Health, Toxicology and Mutagenesis ,0211 other engineering and technologies ,02 engineering and technology ,Wastewater ,010501 environmental sciences ,Waste Disposal, Fluid ,complex mixtures ,01 natural sciences ,Gas Chromatography-Mass Spectrometry ,Bioreactors ,medicine ,Bioreactor ,Environmental Chemistry ,Coke ,Effluent ,0105 earth and related environmental sciences ,021110 strategic, defence & security studies ,Chemistry ,technology, industry, and agriculture ,General Medicine ,Biodegradation ,Pollution ,Acute toxicity ,Environmental chemistry ,Toxicity ,Adsorption ,Oxidation-Reduction ,Water Pollutants, Chemical ,Activated carbon ,medicine.drug - Abstract
This study investigated the changes of toxic compounds in coking wastewater with biological treatment (anaerobic reactor, anoxic reactor and aerobic-membrane bioreactor, A1/A2/O-MBR) and advanced physicochemical treatment (Fenton oxidation and activated carbon adsorption) stages. As the biological treatment stages preceding, the inhibition effect of coking wastewater on the luminescence of Vibrio qinghaiensis sp. Nov. Q67 decreased. Toxic units (TU) of coking wastewater were removed by A1/A2/O-MBR treatment process, however approximately 30 % TU remained in the biologically treated effluent. There is a tendency that fewer and fewer residual organic compounds could exert equal acute toxicity during the biological treatment stages. Activated carbon adsorption further removed toxic pollutants of biologically treated effluent but the Fenton effluent increased acute toxicity. The composition of coking wastewater during the treatment was evaluated using the three-dimensional fluorescence spectra, gas chromatography-mass spectrometry (GC-MS). The organic compounds with high polarity were the main cause of acute toxicity in the coking wastewater. Aromatic protein-like matters in the coking wastewater with low biodegradability and high toxicity contributed mostly to the remaining acute toxicity of the biologically treated effluents. Chlorine generated from the oxidation process was responsible for the acute toxicity increase after Fenton oxidation. Therefore, the incorporation of appropriate advanced physicochemical treatment process, e.g., activated carbon adsorption, should be implemented following biological treatment processes to meet the stricter discharge standards and be safer to the environment.
- Published
- 2016