The Treatment Mode and Key Techniques to the Complex Chemical Wastewater

Lei Liu; Yong Shan Ma; Li Zhu; Yan Yan Wang

doi:10.4028/www.scientific.net/AMR.864-867.1704

Paper Titles

Pilot Research on Outer Loop EGSB Anaerobic Reactor for Pulping and Papermaking Wastewater
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Using of AOP Process for Phenol Removal from Wastewater
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Acid Light Yellow Removal from Wastewater Using Peanut Shell-Based Activated Carbon
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Preliminary Study on the Removal of Hexavalent Chromium in Wastewater with Reduction of Sulfur Dioxide
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The Treatment Mode and Key Techniques to the Complex Chemical Wastewater
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Dioxin Destruction by Supercritical Water Oxidation
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Synthesis of Reduced Graphene Oxide for Helianthine Removal
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Synthesis of Phosphoric Acid /Graphene Composites for Water Purification
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Performance of MDEA-PZ-TETA for Absorption and Desorption of CO₂
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HomeAdvanced Materials ResearchAdvanced Materials Research Vols. 864-867The Treatment Mode and Key Techniques to the...

The Treatment Mode and Key Techniques to the Complex Chemical Wastewater

Abstract:

The performance of a dual and multi-stage treatment system which was made up of two-stage whole stillage anaerobic fermentation (WSAF), an internal circulation reactor (IC), an anoxic/aerobic reactor (A/O) and a biological aerated filter (BAF), was investigated for the treatment of complex chemical wastewater with an influent chemical oxygen demand (COD) concentration of 700-55,000 mg/L. According to different wastewater sources and qualities, different types of wastewater were inputted into the treatment system. More than 95% of COD_Cr and suspended substance (SS) could be removed by anaerobic treatment. Approximately 4% of COD_Cr and SS could be removed during the phases of A/O and BAF. The highest values of COD_Cr, BOD₅, NH₃-N and SS in the treated effluent were 87.0, 19.7, 14.5 and 38.0 mg/L, respectively.