Volume 8, Issue 3, June 2019, Page: 72-77
A Case Study of Dyestuff Chemical Wastewater Treatment Project
Xianglin Wu, Jiangsu Volkswagen Water Group Co. Ltd. General Office, Xuzhou City, China
Yumei Chen, Department of Architectural Engineering, Jiangsu Vocational College of Architecture, Xuzhou City, China
Yanqi Wu, Safety and Environmental Protection Department, Xuzhou Kedah Fine Chemicals Ltd, Xuzhou, China
Received: May 16, 2019;       Accepted: Jun. 25, 2019;       Published: Aug. 29, 2019
DOI: 10.11648/j.ajep.20190803.12      View  38      Downloads  10
Abstract
The wastewater treatment engineering design scale of a certain dye group co., LTD in Xuzhou is 3000m 3/d, According to the characteristics of dyestuff wastewater, the combined treatment process of "physicochemical + biochemical" was adopted. The engineering operation results show that the removal rate of COD, NH3-N and chroma is 93.1, 80.5 and 90.7 percent, and the effluent water quality is stable and meets the design requirements.
Keywords
Dyestuff Wastewater, Hydrolytic Acidification, SBR, The Test and Operation
To cite this article
Xianglin Wu, Yumei Chen, Yanqi Wu, A Case Study of Dyestuff Chemical Wastewater Treatment Project, American Journal of Environmental Protection. Vol. 8, No. 3, 2019, pp. 72-77. doi: 10.11648/j.ajep.20190803.12
Copyright
Copyright © 2019 Authors retain the copyright of this article.
This article is an open access article distributed under the Creative Commons Attribution License (http://creativecommons.org/licenses/by/4.0/) which permits unrestricted use, distribution, and reproduction in any medium, provided the original work is properly cited.
Reference
[1]
Ming Wang. Study on water reuse scheme of urban sewage treatment plant in jiawang district [J]. Environmental science and technology. 2014, 27 (1), 42.
[2]
Nanqi Ren, xianjiao Zhou class. Resear chprogress on dye wastewater reatment [J]. Chemical journal. 2013, 1, 64 (1).
[3]
Huijuan Zhang Analysis of treatment process of dye wastewater [J]. Leather and hemicals. 2010, 4, 27 (2).
[4]
Shaohua Xue, Jianjia Cheng. Study on treatment process of anthraquinone dye production wastewater [J]. Chemical environmental protection. 2002, 22, 198-202.
[5]
Shaolan Ding, Zhengkun Li. Review of dye wastewater treatment technology [J]. Water resources protection. 2010, 5. 26 (3).
[6]
Jinsi Chen, jin Xin. The present situation and development trend of organic waste liquid incineration technology [J]. Anhui chemical. 2011, 10. 37 (5).
[7]
Junqiao Zhu. Expansion and renovation design of wastewater treatment plant in industrial park [A]. Industrial water and wastewater, 2015, 46, 73-75.
[8]
Haijin Teng, Shuiqing Yang. Research on the application of activated carbon adsorption in oil refining and chemical wastewater reuse [J]. Protection engineering. 2018, 35.
[9]
Jin Huang, Xiang Hu. Treatment of high salinity organic wastewater by iron - carbon microelectrolysis [J]. Chemical industry and environmental protection. 2007, 27. 3.
[10]
Yingguo, Honghanchen. Treatment of benzene dye intermediate wastewater with enhanced grade 3 Fenton oxidation combined with lime milk and coagulation [J]. Journal of environmental engineering. 2017, 11.
[11]
Yuejin Shi et al. Advances in the treatment of anthraquinone dye wastewater [A]. Journal of chemical engineering. 2009, 23, 49-53.
[12]
Fang Li et al. The practice of treating acid-making wastewater with three-stage lime milk neutralization [B]. Energy saving in nonferrous metallurgy. 2006 (6), 45-47.
[13]
Yanxia Wang et al. Application of optimal design of limestone filter bed in pickling wastewater treatment project. Industrial water and wastewater, 2014, 45, 54-57.
[14]
Shuicheng Tan et al. Design of ultra-efficient shallow gas floatation + hydrolytic acidification +SBR process for the treatment of papermaking wastewater. Technology and engineering [A]. 2010, 10 (18), 4582-4584.
[15]
Yafei Li. Biochemical treatment and commissioning of printing and dyeing wastewater [A]. Pollution control technology. 2008. 21 (4). 113-115.
[16]
Yunlong Yang. Status and development of SBR process [A]. Industrial water and wastewater. 2002, 33 (2). 1-3.
Browse journals by subject