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[1]王延梅.臭氧法处理电镀含镍废水工艺研究[J].电镀与精饰,2022,(1):45-49.[doi:10.3969/j.issn.1001-3849.2022.01.008]
　WANG Yanmei.Study on Treatment of Electroplating Wastewater Containing Nickel by Ozone[J].Plating & Finishing,2022,(1):45-49.[doi:10.3969/j.issn.1001-3849.2022.01.008]

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臭氧法处理电镀含镍废水工艺研究

《电镀与精饰》[ISSN:1001-3849/CN:12-1096/TG] 卷: 期数: 2022年1 页码: 45-49 栏目: 出版日期: 2022-01-09

Title:: Study on Treatment of Electroplating Wastewater Containing Nickel by Ozone

作者:: 王延梅; (潍坊科技学院山东半岛卤水资源高值化绿色化综合利用工程技术研发中心,山东寿光 262700)

Author(s):: WANG Yanmei; (Shandong Peninsula Engineering Research Center of Comprehensive Brine Utilization Weifang College of Science and Technology Shouguang 262700 China)

关键词:: 含镍废水; 响应面; 优化

Keywords:: nickel-containing waste water; response surface; optimization

分类号:: X703

DOI:: 10.3969/j.issn.1001-3849.2022.01.008

文献标志码:: A

摘要:: 本论文采用O₃+UV+Ca(OH)₂法处理含镍废水，对氢氧化钙加入量、臭氧流量、反应时间、pH和紫外灯功率等影响因素进行了分析，利用Design Expert 8.0 中Box-Behnken法进行了响应面设计，并对实验数据进行了优化。结果表明，最佳废水处理的工艺条件为：紫外灯功率30 W，氢氧化钙加入量59.5 mg，臭氧流量98.7 mL·min^-1，反应时间29.3 min，pH 7.9。在此条件下处理后的废水中镍离子浓度为0.0865 mg·L^-1，达到排放标准。

Abstract:: In this paper， the O₃+UV + Ca(OH)₂ precipitation method was used to treat nickel-containing wastewater. The influencing factors， such as calcium hydroxide dosage， ozone flow rate， reaction time and pH， were analyzed. The box Behnken method in design expert 8.0 was used to carry out response surface design and the experimental data were optimized. The results show that the optimum process conditions for wastewater treatment are as follows： UV power is 30 W，calcium hydroxide dosage is 59.5 mg， ozone flow rate is 98.7 mL·min ^-1， the reaction time is 29.3 min and pH is 7.9. Under these conditions， the concentration of nickel ion in the treated wastewater is 0.0865 mg·L^-1， which reaches the discharge standard.

参考文献/References:

[1] 梅光泉.重金属废水的危害及治理[J].微量元素与健康研究, 2004, 21(4): 54-56.

Mei G Q. Harmfulness and treatment of heavy metal waste water[J]. Studies of Trace Elements and Health, 2004, 21(4): 54-56 (in Chinese).

[2] 王文星. 电镀废水处理技术研究现状及趋势[J]. 电镀与精饰, 2011, 33(5): 42-46.

Wang W X. Advances and trends of treatment techniques for electroplating wastewater[J]. Plating and Finishing, 2011, 33(5): 42-46 (in Chinese).

[3] 张崇华. 电镀废水治理技术综述[M]. 北京中国环境科学出版社, 1992.

[4] 李小花, 郭崇武, 吴梅娟. 基于沉淀法的化学镀镍废水处理工艺[J]. 电镀与涂饰, 2018, 37(24): 1151-1154.

Li X H, Guo C W, Wu M J. Process for treatment of the wastewater discharged from electroless nickel plating production based on chelating precipitation[J]. Electropating and Finishing, 2018, 37(24): 1151-1154 (in Chinese).

[5] Bulasarav K, Thakuria H, Uppaluri R, et al. Combinatorial performance characteristics of agitated nickel hypophosphite electroless plating baths[J]. Journal of Materials Processing Technology, 2011, 211(9): 1488-1499.

[6] 张厚, 施力匀, 杨春. 电镀废水处理技术研究进展[J]. 电镀与精饰, 2018, 40(2):36-41.

Zhang H, Shi L Y, Yang C, et al. Research progress of electroplating wastewater treatment technology[J]. Plating and Finishing, 2018, 40(2): 36-41 (in Chinese).

[7] 李昊, 周律, 李涛, 等. 臭氧氧化法深度处理印染废水生化处理出水[J]. 化工环保, 2012, 32(1):30-34.

Li H, Zhou L, Li T, et al. Advanced treatment of bio-treated dyeing wastewater by ozone oxidation process[J]. Environmental Protection of Chemical Industry, 2012, 32(1): 30-34 (in Chinese).

[8] 程雯, 全学军, 赵清华, 等. O3-Ca(OH)2体系处理苯酚废水[J]. 化工环保, 2018, 38(3): 282-287.

Cheng W, Quan X J, Zhao Q H, et al. Treatment of phenol wastewater in O3-Ca(OH)2 system[J]. Environmental Protection of Chemical Industry, 2018, 38(3): 282-287 (in Chinese).

[9] Quan X, Luo D, Wu J, et al. Ozonation of acid red 18 wastewater using O3/Ca(OH)2 system in a micro bubble gas-liquid reactor[J]. Journal of Environmental Chemical, 2017, 5(1): 283-291.

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备注/Memo

收稿日期： 2021-07-04 修回日期： 2021-09-08 作者简介：王延梅（1976－），女，硕士，副教授，email：wkwangyanmei@163.com

更新日期/Last Update: 2022-01-07