Evaluation of bactericidal effects of UV on circulating water and the research on influencing factors

doi:10.11894/1005-829x.2012.32.（1）.47

INDUSTRIAL WATER TREATMENT ›› 2012, Vol. 32 ›› Issue (1): 47-50. doi: 10.11894/1005-829x.2012.32.（1）.47

Previous Articles Next Articles

Evaluation of bactericidal effects of UV on circulating water and the research on influencing factors

Yan Yan, Li Hesheng, Ren Zhifeng, Li Bowei

Yanshan Branch, Beijing Research Institute of Chemical Industry, SINOPEC, Beijing 102500, China

Received:2011-11-03 Revised:2011-11-03 Online:2012-01-20 Published:2014-10-08

循环水紫外杀菌效果评价及影响因素研究

闫岩, 郦和生, 任志峰, 李博伟

中国石油化工股份有限公司北京北化院燕山分院, 北京 102500

作者简介:闫岩（1963- ），1989 年毕业于首都师范大学，硕士，高级工程师。电话：010 -80345027，E-mail：yanyan.bjhy@sinopec.com。

Abstract

Abstract:

The bactericidal effects of UV technique on circulating water and the impact of circulating water quality on UV bactericidal effects are evaluated. The impact of operation data such as sterilization time，UV dosage on bactericidal effects are investigated. The results show that UV light has comparatively good bactericidal capacity for three kinds of bacteria in circulating water. When the UV irradiation time is 2 s，UV dosage 0.04 J/cm²，total iron in circulating water＜0.5 mg/L，and turbidity＜10 mg/L，the quantity of heterotrophic bacteria is less than 1×10⁵ mL^-1. 20 世纪70 年代，紫外杀菌技术开始逐步应用于污水和工业杀菌领域；至90 年代，由于关键技术特别是紫外低压高能灯系统、中压灯系统和高压高强灯等的突破，使得原本利用紫外杀菌系统很难达到杀菌效果的水体，现在可用高性价比的紫外杀菌系统进行杀菌处理，且因其具有环保洁净特性，因而在欧美国家得到广泛应用〔1〕。目前西方国家已有约 25％的污水处理厂采用紫外杀菌技术。紫外杀菌技术在工业中的应用已进入逐渐成熟时期，但在循环水中的应用报道极少。针对北京地下水为水源、浓缩倍数为4 的循环水水质条件，笔者选用300 W 紫外低压高强灯，研究了紫外杀菌系统对循环水的杀菌效果并确定了其在循环水中的使用条件。 1 实验部分 1.1 紫外杀菌实验流程在水箱中加入实验用水，开启水泵，调节流量计，

Key words: circulating water, UV disinfect, heterotrophic bacteria

摘要：

评价了紫外技术对循环水的杀菌效果、循环水水质对紫外杀菌效果的影响，并考察了运行参数如杀菌时间、紫外剂量对杀菌效果的影响。结果表明：紫外光对循环水中的3 种细菌有较好的杀菌效果。当紫外照射时间为2 s，紫外剂量为0.04 J/cm²，循环水中总铁＜0.5 mg/L，浊度＜10 mg/L 时，可使循环水中的异养菌数＜1×10⁵ mL^-1。

关键词: 循环水, 紫外杀菌, 异养菌

CLC Number:

TQ085
R123.8

Yan Yan, Li Hesheng, Ren Zhifeng, Li Bowei. Evaluation of bactericidal effects of UV on circulating water and the research on influencing factors[J]. INDUSTRIAL WATER TREATMENT, 2012, 32(1): 47-50.

闫岩, 郦和生, 任志峰, 李博伟. 循环水紫外杀菌效果评价及影响因素研究[J]. 工业水处理, 2012, 32(1): 47-50.

/ / Recommend / Download Citations

URL: https://www.iwt.cn/EN/10.11894/1005-829x.2012.32.（1）.47

https://www.iwt.cn/EN/Y2012/V32/I1/47

[1]	Bingbin CHEN, Kenie LU, Cong ZHENG, Han ZHANG, Jiasheng LI. Analysis and research on the operation of circulating cooling water in automobile welding workshop [J]. Industrial Water Treatment, 2024, 44(4): 210-214.
[2]	Chengxia XING, Yongli LI, Rongrong GU, Yuanxiang HU. Determination of trace aluminum in indirect air cooling unit circulating water by graphite furnace atomic absorption spectrophotometry [J]. Industrial Water Treatment, 2024, 44(11): 167-171.
[3]	Fei XIONG, Hao YANG, Xiaorong JIN. Optimization of make-up water quality and system operation scheme of steel circulating water [J]. Industrial Water Treatment, 2024, 44(1): 207-212.
[4]	Yan SU, Yang YANG, Keya GU, Qian HUANG, Bin ZHAO, Qi JIANG, Hao XU. Research progress of electrochemical descaling technology for circulating cooling water system [J]. Industrial Water Treatment, 2023, 43(8): 30-37.
[5]	Huafeng LIAO, Shang YUAN, Lan GAO, Hongbing ZHAO, Bibo ZHANG. Design optimization of circulating water treatment dosing room for a certain iron and steel enterprise [J]. Industrial Water Treatment, 2023, 43(7): 212-216.
[6]	Daobin MU, Jun YANG, Chenglei ZHANG, Rongjian NIE. Research on the application of water saving technology of circulating water controlled by electrochemistry and agent combining treatment [J]. Industrial Water Treatment, 2023, 43(5): 188-193.
[7]	Haibo Xu,Nan Zhang,Jun Yang,Yaxiang Lin. Research on the advanced treatment and reuse of the recirculating water blowdown water in steel plant [J]. Industrial Water Treatment, 2021, 41(9): 157-160.
[8]	Haiyan Li,Xiaokui Liu,Fang Peng,Xingren Zhang,Jiangtao Zhang. Application of ABFT process in the treatment of circulating water drainage in a thermal power plant [J]. Industrial Water Treatment, 2021, 41(6): 269-272.
[9]	Xiaofeng Hou,Jin Zhao,Anmin Zhu. Example of wastewater treatment project and digital application in circulating water system of refining and chemical enterprises [J]. Industrial Water Treatment, 2021, 41(6): 273-276.
[10]	Shunli QU. Energy saving optimization of circulating water system in a petrochemical plant based on PIPENET software [J]. Industrial Water Treatment, 2021, 41(11): 142-145.
[11]	Li Tao, Wang Tao, Liu Wei, Zhang Qi, Huang Xiping. Research progress in the active bromine biocides [J]. INDUSTRIAL WATER TREATMENT, 2019, 39(3): 1-5.
[12]	Jinyu Liu,Minglei Gao,Xin Zhou,Miao Geng,Haixu Wang. Study on technological transformation of hot rolled turbid circulating water treatment system [J]. Industrial Water Treatment, 2019, 39(11): 110-112.
[13]	Zhiyuan Han. Analysis and countermeasures of the polluted circulating water system with multi-source water supply [J]. Industrial Water Treatment, 2019, 39(10): 114-116.
[14]	Hu Dalong, Xu Zhen, Yang Yong, Wu Genji, Zhai Shaojing, Zhang Ning, Long Keyu, Su Yan. Research on the reuse treatment process for the wastewater from circulating water in a thermal power plant [J]. Industrial Water Treatment, 2019, 39(1): 33-36.
[15]	Wang Jiajia, Gao Canzhu, Peng Yuting, Hou Yanjin, Liu Guangxia, Zhao Pei, Xu Min, Wang Liqiu. Application of C₆H₆NO₃SNa to the automatic dosing system of circulating water [J]. Industrial Water Treatment, 2019, 39(1): 69-72.

Please choose a citation manager

Content to export

Evaluation of bactericidal effects of UV on circulating water and the research on influencing factors

循环水紫外杀菌效果评价及影响因素研究

PDF

Knowledge

Cited

Abstract

Cite this article

share this article

References

Related Articles 15

Recommended Articles

Metrics

Comments

模态框（Modal）标题

Please choose a citation manager

Content to export

Evaluation of bactericidal effects of UV on circulating water and the research on influencing factors

循环水紫外杀菌效果评价及影响因素研究

PDF

Knowledge

Cited

Abstract

Cite this article

share this article

References

Related Articles 15

Recommended Articles

Metrics

Comments