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优势菌对焦化废水中几种有机物降解特性的实验研究
引用本文:李长征,李捍东,王婉华,刘征涛,魏普民,刘 琴,张敬东. 优势菌对焦化废水中几种有机物降解特性的实验研究[J]. 环境科学研究, 2007, 20(1): 100-103
作者姓名:李长征  李捍东  王婉华  刘征涛  魏普民  刘 琴  张敬东
作者单位:中国环境科学研究院,国家环境保护化学品生态效应与风险评估重点实验室,北京,100012;钢铁研究总院,表面技术与腐蚀工程事业部,北京,100081;中国环境科学研究院,国家环境保护化学品生态效应与风险评估重点实验室,北京,100012;北京兰利东方科技有限公司,北京,100089;武汉大学,资源与环境科学学院,湖北,武汉,430079
基金项目:国家重点基础研究发展计划(973计划)
摘    要:从焦化厂曝气池活性污泥和废水处理工艺出水中筛选出6株革兰氏阳性优势菌,根据菌株、菌落形态和大量生化实验将菌株鉴定到属.确定了降解所需的最佳实验条件.分别为温度30 ℃,转速100 r/min,菌株投加量20%(V(菌液)/V(废水)).实验发现,筛选出的6株优势菌对喹啉、吡啶和萘有良好的降解效果,但以喹啉为碳源和氮源筛选出来的H24,H26和H31对喹啉的去除率优于其他3株菌株,而以萘为唯一碳源的H14对萘的去除率优于其他菌种.6株优势菌的驯化活性污泥能进一步提高对喹啉、吡啶和萘的去除能力,去除率在90%以上. 

关 键 词:焦化废水  优势菌  喹啉    吡啶
文章编号:1001-6929(2007)01-0100-04
修稿时间:2006-09-18

Experimental Research on the Degradation of Organic Compounds in the Coking-Plant Wastewater by Superiority Bacteria
LI Chang-zheng,LI Han-dong,WANG Wan-hu,LIU Zheng-tao,WEI Pu-min,LIU Qin and ZHANG Jing-dong. Experimental Research on the Degradation of Organic Compounds in the Coking-Plant Wastewater by Superiority Bacteria[J]. Research of Environmental Sciences, 2007, 20(1): 100-103
Authors:LI Chang-zheng  LI Han-dong  WANG Wan-hu  LIU Zheng-tao  WEI Pu-min  LIU Qin  ZHANG Jing-dong
Affiliation:1 .SEPA Key Laboratory of Ecological Effect and Risk Assessment of Chemicals, Chinese Research Academy of Environmental Sciences, Beijing 100012, China ;2. Central Iron and Steel Research Institute, Suface Technclogy and Corrosion Engineering Division, Beijing 100081, China; 3. Beijing Ardlabs Cooperation Limited, Beijing 100089, China; 4. School of Resource and Environmental Science, Wuhan University, Wuhan 430079, China
Abstract:Six Gram (+) superiority bacteria were isolated from the active sludgeof the Aeration Tank and from the outlet water of wastewater treatment process of coking-plants. The strains of microorganism were identified to different genera, according to bacteria morphology character and numeric biochemical tests. The optimal degradation temperature is confirmed as 30 ℃, while the rotating speed and strain dosage are 100 r/min and 20% respectively. The experimental results show that the six organisms can well degrade quinoline, naphthalin and pyridine.The quinoline-degrading bacteria H24, H26 and H31 have a better removal capability for quinoline, and the naphthalin-degrading bacterium H14 have a better removal capability for naphthalin. The active sludge domesticated by mixed superiority bacteria can improve the removal efficiency of quinoline, naphthalin and pyridine, and the removal efficiency is higher than 90%. 
Keywords:coking-plant wastewater   superiority bacteria   quinoline   naphthalin   pyridine
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