|
|
新型净水剂在焦化废水深度处理中的实际应用
|
Abstract:
焦化废水是一种典型的高浓度、难降解的工业废水,其组成分复杂、毒性大、处理难度大。按国内现有处理工艺,生化处理后废水很难达到一级排放标准,然而实施新的炼焦行业污染物排放标准,使焦化废水的达标排放或回用成为迫切需要解决的难题。本文研究出新型焦化酚氰废水净水剂,在焦化废水常规工艺的深度处理过程中强化混凝的技术实际应用,不仅能够保证出水水质达到《炼焦化学工业污染物排放标准》的排放要求,解决废水外排造成的环境污染问题,提高水的重复利用率,而且节省固定投资,降低运行成本,管理操作简易,具有良好的示范意义和推广价值。
Coking wastewater is a typical high-concentration, difficult-to-degrade industrial wastewater with complex composition, high toxicity, and difficult treatment. According to the existing domestic treatment technology, it is difficult for the wastewater after biochemical treatment to meet the first-level discharge standard. The implementation of the new coking industry pollutant discharge standard makes the discharge or reuse of coking wastewater become an urgent problem to be solved. The practical application of a new type of coking phenol-cyanide wastewater purifierin the advanced treatment process of conventional coking wastewater is introduced. It can not only ensure that the effluent water quality meets the discharge requirements of the “Coking Chemical Industry Pollutant Discharge Standard”, solve the environmental pollution problem caused by the discharge of waste water, and improve the reuse rate of water, but also save fixed investment, reduce operating costs, and easy management and operation, which has demonstration significance and promotion value.
| [1] | JIA, S. Y., HAN, H. J., HOU, B. L., et al. Advanced treatment of biologically pretreated coal gasification wastewater by a novel integration of three-dimensional catalytic electro-Fenton and membrane bioreactor. Bioresource Technology, 2015, 198: 918-921. |
| [2] | CHEN, H. L., YANG, G., FENG, Y. J., et al. Biodegradability enhancement of coking wastewater by-catalytic wet air oxidation-using aminated activated-carbon as catalyst. Chemical Engineering Journal, 2012, 199(1): 45-51. |
| [3] | 汤敏. 焦化废水物化处理技术研究进展[J]. 广东化工, 2016(6): 129-131.
TANG Min. Research progress of coking wastewater physical and chemical treatment technology. Guangdong Chemical Industry, 2016(6): 129-131. (in Chinese) |
| [4] | 环境保护部. GB16171-2012炼焦化学工业污染物排放标准[S]. 北京: 中国环境科学出版社, 2012.
Ministry of Environmental Protection. GB16171-2012 pollutant emission standard for coking chemical industry. Beijing: China Environmental Science Press, 2012. (in Chinese) |
| [5] | 郭玲香, 胡明星, 郭世全. 新型阳离子聚合物治理煤泥水的应用研究[J]. 上海环境科学, 1999(3): 127-129.
GUO Lingxiang, HU Mingxing, GUO Shiquan. Application research on the treatment of coal slurry water with new cationic polymers. Shanghai Environmental Science, 1999(3): 127-129. (in Chinese) |
| [6] | 毋光辉. 用聚合硫酸铁絮凝剂处理高浓度洗煤废水[J]. 环境保护, 1992(2): 16-17.
WU Guanghui. Treating high-concentration coal washing wastewater with polymeric ferric sulfate flocculants. Environmental Protection, 1992(2): 16-17. (in Chinese) |
| [7] | 王萍, 刘裴文, 杜春文, 等. 复配絮凝剂APSA的研制与效果试验[J]. 水处理技术, 1998(3): 179-182.
WANG Ping, LIU Peiwen, DU Chunwen, et al. Development and effect test of compound flocculant APSA. Water Treatment Technology, 1998(3): 179-182. (in Chinese) |
| [8] | 李少章, 高琳玉, 张志诚, 等. 絮凝剂性质对不同煤浆絮凝效果的影响[J]. 速煤技术, 1996(6): 24-27.
LI Shaozhang, GAO Linyu, ZHANG Zhicheng, et al. The effect of flocculant properties on the flocculation effect of different coal slurry. Speed Coal Technology, 1996(6): 24-27. (in Chinese) |
| [9] | 谢广元, 施秀屏, 欧泽深, 等. 煤泥水处理中絮凝剂的正确选择和使用[J]. 选煤技术, 1996(4): 33-36.
XIE Guangyuan, SHI Xiuping, OU Zeshen, et al. Correct selection and use of flocculants in the treatment of slime water. Coal Preparation Technology, 1996(4): 33-36. (in Chinese) |
| [10] | 马凯, 王国瑞, 周继柱, 等. 一种焦化酚氰废水净水剂及其制备方法与应用[P]. CN 111646534 A: 2020-09-11.
MA Kai, WANG Guorui, ZHOU Jizhu, et al. A water purifier for coking phenol cyanide wastewater and its preparation method and application. CN 111646534 A: 2020-09-11. (in Chinese) |
