[1]张 勇,王志良,张林生,等.吡虫啉废水厌氧与加压好氧组合处理技术研究[J].南京师范大学学报(工程技术版),2009,09(04):049-52.
 Zhang Yong,Wang Zhiliang,Zhang Linsheng,et al.Study on Imidacloprid Wastewater Treatment by Anaerobic Hydrolysis-Pressurized Biological Oxidation Process[J].Journal of Nanjing Normal University(Engineering and Technology),2009,09(04):049-52.
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吡虫啉废水厌氧与加压好氧组合处理技术研究
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南京师范大学学报(工程技术版)[ISSN:1006-6977/CN:61-1281/TN]

卷:
09卷
期数:
2009年04期
页码:
049-52
栏目:
出版日期:
2009-12-30

文章信息/Info

Title:
Study on Imidacloprid Wastewater Treatment by Anaerobic Hydrolysis-Pressurized Biological Oxidation Process
作者:
张 勇1 王志良2 张林生3 李国新3 乐 昕1 李国平2
1. 南京师范大学环境工程系, 江苏南京210042; 2. 江苏省环境科学研究院, 江苏南京210029;
3. 东南大学环境工程系, 江苏南京210096
Author(s):
Zhang Yong1Wang Zhiliang2Zhang Linsheng3Li Guoxin3Yue Xin1Li Guoping2
1.Department of Environmental Engineering,Nanjing Normal University,Nanjing 210042,China;2.Jiangsu Research Institute of Environmental Science,Nanjing 210029,China;3.Department of Environmental Engineering,Southeast University,Nanjing 210096,China
关键词:
吡虫啉 厌氧水解 加压生化 组合工艺
Keywords:
im idacloprid anaerob ic hydrolysis pressu rized b io log ical ox idation comb ined process
分类号:
X703.1
摘要:
试验了厌氧与加压好氧组合工艺处理吡虫啉农药废水的性能.研究表明,农药废水与生活污水按8∶2的体积比混合,通过共代谢途径可提高水解效果;加压生化段最佳运行工况为P=0.3MPa,DO=5~6 mg/L,HRT=4.6 h,高含盐量对该组合工艺处理农药废水的效果未形成明显冲击.当要求出水COD较低时,加压生化段容积负荷宜控制在较低水平;当要求反应器具有较高的处理效率时容积负荷可控制在较高的水平.
Abstract:
The capability of im idac loprid w astew ater trea tm en t by com b ined Anne robicH ydro lysis-pressurized b io log ical ox idation pro cess w as studied in th is paper. The stud ies show ed that the hydro lys is e ffect was im proved due to co-m etabo lism by m ix ing pesticide w astewa ter and Sew age in term of a vo lum e ratio as 8B2. The feasib le runn ing param eter o f pressur ized bio log ica l ox ida tion process w as that the pressure am ounted to 01 3MPa, DO w as in scope o f 5 and 6m g /L, and theHRT w as 416 h. The effect of pestic idew astew ater treatment w ou ld not be im pac ted obv iously by the h igh sa lt content. The vo lum e load of pressurized b io log ical ox idation process should be contro lled in a low leve lwhen the effluent COD v alue w as requ ired to be low, as shou ld be contro lled in a high leve l when dea ling effic iency o f the reactor w as requ ired to be h igh.

参考文献/References:

[ 1] 林玉锁. 农药与生态环境保护[M ]. 北京: 化学工业出版社, 2000.
Lin Yusuo. Pestic ide and Ecolog ica l Env ironm ent Protection[M ] . Beijing: Chem ica l Industrial Press, 2000. ( in Ch inese)
[ 2] 徐波, 许翔. 碱解氧化-厌氧滤池-SBR 工艺处理有机磷农药废水[ J]. 给水排水, 2004, 3( 2): 40-42.
Xu Bo, Xu X iang. Basic ox idation-anae robic filter-SBR process trea ting organ ic phosphorus pesticide wastewa ter[ J]. W ater
andW astew ate r Eng ineering, 2004, 3( 2): 40- 42. ( in Chinese)
[ 3] 孟连军, 张建新, 陆少鸣. 微碱解-厌氧水解-SBR好氧生化法处理有机磷农药废水[ J]. 化工环保, 2001, 21( 2): 88-
91.
M eng L ianjun, Zhang Jianx in, Lu Shaom ing. Trea tm en t of organ ic phospho rus pestic ide w astew ater by weak a lkaline hydro lysis-
anaerobic hydro ly sis-SBR aerobic b io log ical technology[ J]. Env ironm en tal Pro tection o f Chem ica l Industry, 2001, 21( 2):
88-91. ( in Chinese)
[ 4] 张勇, 张林生, 夏明芳. 加压溶氧废水生物处理技术研究进展[ J] . 工业水处理, 2005, 25( 11): 9-11.
Zhang Yong, Zhang L insheng, X iaM ing fang. Deve lopm ent o f b io log ica l treatment techno logy o fw astew ater by pressurized oxygen
disso lution[ J]. Industia lW ater Treatm ent, 2005, 25( 11): 9-11. ( in Ch inese)
[ 5] 杜春秀. 吡虫啉研究概况[ J]. 海南大学学报: 自然科学版, 2004, 22( 1): 84-88.
Du Chunx iu. Outline o f study on im idacloprid[ J]. Journal of H ainan Un iversity: Na tura l Science Edition, 2004, 22( 1): 84-
88. ( in Ch inese)
[ 6] 徐亚同, 黄民生. 废水生物处理的运行管理与异常对策[M ] . 北京: 化学工业出版社, 2003.
Xu Yatong, H uang M insheng. Opera tion M anag em ent and Exceptiona l Counterm easure o fW astew ater Bio log ica l Treatm ent
[M ]. Be ijing: Chem ica l Industr ia l Press, 2003. ( in Ch inese)
[ 7] 曹敬华, 明欲晓. 压力对加压生物反应器氧转移的影响[ J]. 中国给水排水, 2002, 18( 9): 34-36.
Cao Jinghua, M ing Yux iao. E ffec t o f pressure on ox yg en transfer in the pressur ized bio-reactor [ J]. Ch ina W ate r and
W astewa ter, 2002, 18( 9) : 34-36. ( in Ch inese)

备注/Memo

备注/Memo:
基金项目: 江苏省环境科学研究院江苏省环境工程重点实验室开放基金(KF2008005)资助项目.
通讯联系人: 张 勇, 博士, 讲师, 研究方向: 水处理新技术. E-m ail:clszh angyongs@ sina. com
更新日期/Last Update: 2013-04-23