焦化废水处理方法研究与进展

doi:10.11894/1005-829x.2014.35(9).011

摘要/Abstract

摘要：

通过分析焦化废水的来源和成分,阐述了焦化废水在物理化学、生物方面的处理方法,并介绍了焦化废水处理的最新进展。IE-UASB-A/O₂和A¹-A²-O-MBR-NF-RO 等组合工艺的实践表明,采用组合工艺是焦化废水处理的发展趋势,继续研究和开发新技术也是焦化废水处理的必然方向。

关键词: 焦化废水, 处理方法, 组合工艺

Abstract:

By analyzing the sources and components of coking wastewater,the physical,chemical and biological treatment methods for coking wastewater are expounded,and the newest development of coking wastewater treatment is introduced. The practice and experiments of the combined processes,such as IE-UASB-A/O²,A¹-A²-O-MBR-NF-RO,etc.,show that using combined processes is the development trend of the treatment of coking wastewater. Studying continuously and developing new technologies are the necessary directions of the coking wastewater treatment.

Key words: coking wastewater, treatment methods, combined process

中图分类号:

X703.1

张学敏, 王三反. 焦化废水处理方法研究与进展[J]. 工业水处理, 2015, 35(9): 11-16.

Zhang Xuemin, Wang Sanfan. Research and development of coking wastewater treatment[J]. INDUSTRIAL WATER TREATMENT, 2015, 35(9): 11-16.

https://www.iwt.cn/CN/Y2015/V35/I9/11

参考文献

[1] 潘碌亭,吴锦峰. 焦化废水处理技术的研究现状与进展[J]. 环境科学与技术,2010,33(10):86-91.
[2] 黄力群. 焦化废水处理技术研究开发最新进展[J]. 水处理技术, 2008,34(12):1-6.
[3] 孙令东,姜成春. 焦化废水的处理及废水中有机污染物的测定 (Ⅰ)[J]. 环境工程,1994,12(4):3-6.
[4] Song Guoxin,Zhu Chunyan,Xia Jianzhong,et al. Determining organic compounds in coking wastewater by SPME-GC/MS[J]. Baosteel Technical Research,2013,7(1):34-38.
[5] Zhu Fang,Jia Wenzhen,Shi Changmiao. Advanced treatment of composite coagulant to A/O bioreactor effluent from coking wastewater[J]. IEEE,2011:1-4.
[6] Zhang Mohe,Zhao Quanlin,Xue Bai,et al. Adsorption of organic pollutants from coking wastewater by activated coke[J]. Colloids and Surfaces A:Physicochem. Eng. Aspects,2010,362(1/2/3):140-146.
[7] Zhang Nan,Xue Gaifeng,Liu Pu et al. Application of electrosorption desalination technology in coking wastewater treatment[J]. Advanced Materials Research,2012,573/574:516-520.
[8] Yang Demin,Yuan Jianmei. Advanced treatment of biochemical treated coking wastewater by ozonation process[J]. Advanced Materials Research,2013,726/727/728/729/730/731:2515-2520.
[9] 彭瑞超,于萍,罗运柏. 电-Fenton装置的优化与焦化废水的深度处理[J]. 环境工程,2014,32(5):10-13.
[10] 李海涛,李玉平,张安洋. 新型非均相电-Fenton 技术深度处理焦化废水[J]. 环境科学,2011,32(1):171-178.
[11] Sun Shujing,Wang Yan,Ding Guifu,et al. Electrochemical degrada tion characteristics of refractory organic pollutants in coking wastewater on multiwall carbon nanotubes modified electrode[J]. Environmental Science & Technology,2011,34(4):159-160.
[12] He Xuwen,Liu Liyuan,Wang Hao,et al. Electrochemical treatment of residual ammonia nitrogen in biologically pretreated coking wastewater with three-dimensional electrodes [J]. Water Science and Technology,2011,63(11):2732-2736.
[13] 王有乐,李双来,蒲生彦. 超临界水氧化技术及应用进展[J]. 工业水处理,2008,28(7):1-3.
[14] Wang Yuzhen,Wang Shuzhong,GuoYang,et al. Partial oxidative gasification of coking wastewater in supercritical water[J]. Advanced Materials Research,2013,788:409-412.
[15] Dong Jianjun,Hao Suju,SunYaping,et al. Study on treating sintering flue gas with coking wastewater[J]. Advanced Materials Research,2013,791/792/793:64-67.
[16] Lu Y,Wang Y,Shen S F,et al. Biodegradation of organic compounds from coking wastewater with UASB reactor[J]. Water Science and Technology,2010,62(8):1784-1790.
[17] 孙娟,单明军,白扬,等. 节能型焦化污水生物脱氮新工艺的生产性试验研究[J]. 环境工程,2009,27(2):75-77.
[18] Li Haibo,Cao Hongbin,Li Yuping,et al. Innovative biological process for treatment of coking wastewater [J]. Environmental Engineering Science,2010,27(4):313-322.
[19] Zhou Xin, Li Yaxin,Zhao Yi,et al. Pilot-scale anaerobic/anoxic/oxic/oxic biofilm process treating coking wastewater[J]. Journal of Chemical Technology and Biotechnology,2013,88(2):305-310.
[20] Shan Mingjun,Zhang Yan,Kou Lihong,et al.Study on partial nitrification-anaerobic ammonium oxidation-nitrification coupled technology for the treatment of coking wastewater[J]. Advanced Materials Research,2013,807/808/809:1427-1430.
[21] Li Na,Liu Haibiao,Huang Junli.Treatment effect of coking wastewater using three-phase biological fluid-bed with new ultrastructure biological carriers based on properties of biological materials[J]. Advanced Materials Research,2012,625:297-300.
[22] Wang Feng,Hu Yiru,Guo Chen,et al. Enhanced phenol degradation in coking wastewater by immobilized laccase on magnetic mesoporous silica nanoparticles in a magnetically stabilized fluidized bed[J]. Bioresource Technology,2012,110(4):120-124.
[23] Shi Shengnan,Qu Yuanyuan,Ma Fang,et al. Bioremediation of coking wastewater containing carbazole,dibenzofuran and dibenzothiphene by immobilized naphthalene-cultivated Arthrobacter sp. W1 in magnetic gellan gum [J]. Bioresource Technology,2014, 166(8):79-86.
[24] Marañón E,Vázquez I,Rodríguez J,et al. Treatment of coke wastewater in a sequential batch reactor(SBR) at pilot plant scale[J]. Bioresource Technology,2008,99(10):4192-4198.
[25] Bai Yaohui,Sun Qinghua,Sun Renhua,et al. Bioaugmentation and adsorption treatment of coking wastewater containing pyridine and quinoline using zeolite-biological aerated filters[J]. Environmental Science and Technology,2011,45(5):1940-1948.
[26] Jiang Wufeng,Hao Suju,Ling Yunhan. Study on coking wastewater treatment by fixed bed of metallization pellets with high carbon[J]. Advanced Materials Research,2011,356/357/358/359/360:1942-1946.
[27] Cheng Yue,Fan Wenjing,Guo Lei. Coking wastewater treatment using a magnetic porous ceramsite carrier[J]. Separation and Purification Technology,2014,130:167-172.
[28] Guo Haixia,Ding Fei. Study on advanced treatment of coking wastewater using modified bentonite[J]. Advanced Materials Research,2012,518/519/520/521/522/523:1997-2000.
[29] Wu Zhenhua,Zhu Lizhong. Removal of polycyclic aromatic hydrocarbons and phenols from coking wastewater by simultaneously synthesized organobentonite in a one-step process[J]. Journal of Environmental Sciences,2012,24(2):248-253.
[30] Bao Miaomiao,Yan Kejun,Wang Li,et al. Preparation of coking wastewater coagulants with rare earth waste residue[J]. Chinese Rare Earths,2014,35(2):83-87.
[31] Wu Wenpeng,Li Suqin. Study on BF-BFB process in coking wastewater treatment[J]. IEEE International Conference on Advanced Management Science,2010,1:610-614.
[32] Hao Yingjun,Li Suqin,Wu Xiaolei,et al. Study on bioaugmentation in rapid startup of BF-BFB and enhancing effect of coke plant wastewater treatment[J]. Journal of Chemical and Pharmaceutical Research,2013,12(5):343-348.
[33] Zhu Xiaobiao,Tian Jinping,Chen Liucong,et al. Composition and dynamics of microbial community in a zeolite biofilter-membrane bioreactor treating coking wastewater[J]. Applied Microbiology and Biotechnology,2013,97(19):8767-8775.
[34] 潘碌亭,张乃元,余波,等. 内电解-UASB-A/O₂去除焦化废水有机物的特性[J]. 同济大学学报:自然科学版,2013,41(1): 110-115.
[35] Wang Yuzhen,Wang Shuzhong,Guo Yang,et al. Evaluation of the combined process of aammonia distillation-evaporation concentration-supercritical water gasification-supercritical water oxidation for coking wastewater treatment[J]. Advanced Materials Research,2013,763:191-194.
[36] 王姣,于冰,孙黎明. 基于序批式MBR-RO的焦化废水深度处理研究[J]. 水处理技术,2014,40(4):95-102.
[37] Jin Xuewen,Li Enchao,Lu Shuguang,et al. Coking wastewater treatment for industrial reuse purpose: Combining biological processes with ultrafiltration,nanofiltration and reverse osmosis[J]. Journal of Environmental Sciences(China),2013,25(8):1565-1574.

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