|本期目录/Table of Contents|

[1]高永宝,高菲,吴鹏,等.甲烷氯化物好氧微生物降解动力学[J].武汉工程大学学报,2014,(02):75.
 GAO Yong-bao,GAO Fei,WU Peng,et al.Kinetics of methane chlorides degradation by aerobic microorganism[J].Journal of Wuhan Institute of Technology,2014,(02):75.
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甲烷氯化物好氧微生物降解动力学()
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《武汉工程大学学报》[ISSN:1674-2869/CN:42-1779/TQ]

卷:
期数:
2014年02期
页码:
75
栏目:
资源与土木工程
出版日期:
2014-02-28

文章信息/Info

Title:
Kinetics of methane chlorides degradation by aerobic microorganism
作者:
高永宝1高菲2吴鹏2沈爱萍1成彪2刘胜利2
(1.江苏梅兰化工有限公司研究所,江苏 泰州 225300;2.武汉工程大学环境与城市建设学院,湖北 武汉 430074)
Author(s):
GAO Yong-bao1GAO Fei2WU Peng2 SHEN Ai-ping1CHENG Biao 2 LIU Sheng-li 2
(1. Institute of Jiangsu Meilan Chemical Co., Ltd.,Taizhou 225300,China; 2.School of Environment and Civil Engineering, Wuhan Institute of Technology, Wuhan 430074, China)
关键词:
劳伦斯麦卡蒂方程饱和常数比增长速率底物限制模型
Keywords:
Lao-Mai equation saturation constant ratio growth rate substrate limited models
分类号:
X172
DOI:
-
文献标志码:
-
摘要:
以环境工程中心污质分离器中的好氧污泥为研究对象,经预处理及厌氧处理甲烷氯化物废水中的化学需氧量(COD)作为监测对象,用生物降解法处理工业废水,对混合液悬浮固体质量浓度为9.3g/L,混合液挥发性悬浮固体质量浓度为8.6g/L,COD为300 mg/L的好氧污泥125 mL与50 mL经预处理及厌氧处理的甲烷氯化物废水于烧杯中,定时取样,测定COD值。在低浓度条件下,利用劳伦斯麦卡蒂方程,用整体速率常数表征水中有机污染物的降解速率,通过计算反应级数、最大比降解速率和饱和常数来研究降解机理。结果表明:废水中三氯甲烷的降解需要诱导酶来完成,将好氧污泥中的微生物看作一个整体。甲烷氯化物好氧微生物降解动力学中,底物利用速率与底物浓度之间的关系式在整个浓度区间上都是连续的,反应级数为0.6426,最大比降解速率为3.8,饱和常数为305.45。
Abstract:
To explore the aerobic sludge in the water pollution separator of the environmental engineering center, chemical oxygen demand (COD) of the pre-treated and anaerobic treated methane chloride wastewater was used as a monitoring object. The industrial wastewater was dealt with bio-degradation. The aerobic sludge抯 mixed liquid suspended solids and mixed liquor volatile suspended solids is 9.3 g/L and 8.6 g/L, and the COD value is 300mg/L. Methane chloride wastewater was experienced pre-treated and anaerobic treated. 125mL of aerobic sludge and 50 mL of methane chloride wastewater were mixed together in a beaker. The COD value was measured with the same time interval. According to the Lawrence ?McCarty equation, the degradation rate of organic pollutants in water were characterized with the overall rate constant and degradation mechanism was studied via calculating the reaction order, the maximum degradation rate and saturation constant. The results show that the degradation of methane chloride in wastewater needs the adaptive enzyme; the microorganism in aerobic sludge are seen as a whole. In the aerobic microorganism degradation kinetics of the methane chloride, the relationship of the saturation constant and the substrate concentration is continuous during the whole concentration range in the reaction order of 0.6426, the maximum degradation rate of 3.8 and the saturation constant saturation constant of 305.45

参考文献/References:

[1] 张为,罗建中,苏德强,等.微生物共代谢降解难降解废水影响因素的研究进展[J].工业水处理,2013,33(3):9-13.
Zhang Wei,Luo Jian-zhong,Su De-qiang,et al. Research on the influencing factors of the non-biodegradable wastewater treated by microbial co-metabolism[J].Industrial Water Treatment,2013,33(3):9-13.
[2] 蒋洪军.甲烷氯化物生产废水治理方法研究[D].成都:四川大学,2004.
JIANG Hong-jun. Research on The Waste Water Treatment In The Process Of Chlorometanes(CMS) Production[D]. Chengdu:Sichuan University,2004.
[3] 韩晓东.氯代有机物的降解研究[J].地下水,2011,33(6):168-170.
HAN Xiao-dong. Study on Degradation of Chlorinated Organics[J]. Ground water,2011,33(6):168-170.
[4] 周群英,王世芬.环境工程微生物学[M].北京:高等教育出版社,2008,100-103.
ZHOU Qun-ying, WANG Shi-fen. Environmental Engineering Microbiology[M]. Beijing:Higher Education Press,2008:100-103.
[5] 黄满红.厌氧缺氧好氧活性污泥中典型有机物迁移转化研究[D].上海:同济大学,2006.
HUANG Man-hong. Fate of TyPical organic Matters in Anaerobic/Anoxic/oxic proeess[D]. Shanghai:Tongji University,2006.
[6] 朱莹.几种矿冶药剂的生物降解性评价[D].武汉:武汉理工大学,2011.
Zhu Ying. Biodegradability evaluation of Several pharmaceutical medicament of Mining and Metallurgy[D]. Wuhan:Wuhan university of technology,2011.
[7] 何 炜, 王世和.厌氧颗粒污泥流化床的动力学参数测定[J].环境科学研究,2004,17(4) :70-73.
HE Wei,WANG Shi-he. Determination of Kinetic Parameters in AnaerobicGranular Sludge Fluidized Bed[J]. Research of Environmental Sciences,2004,17(4):70-73.
[8] 李庆扬,王能超,易大义.数值分析[M].北京:清华大学出版社,2001.
LI Qing-yang, WANG Neng-chao, YI Da-yi. Numerical analysis[M]. Beijing:Tsinghua University Press,2011.
[9] 罗固源.水污染控制工程[M].北京:高等教育出版社,2006:211-216.

相似文献/References:

[1]高永宝,高菲,吴鹏,等.甲烷氯化物好氧微生物降解动力学[J].武汉工程大学学报,2014,(02):20.[doi:103969/jissn16742869201402005]
 GAO Yong bao,GAO Fei,WU Peng,et al.Kinetics of methane chlorides degradation by aerobic microorganism[J].Journal of Wuhan Institute of Technology,2014,(02):20.[doi:103969/jissn16742869201402005]

备注/Memo

备注/Memo:
t —— 反应时间,h-1; X —— 现存微生物群体浓度; K1 —— ; 收稿日期:2013-10-08作者简介:高永宝(1965-),男,江苏泰州人,高级工程师。
更新日期/Last Update: 2014-02-26