[1]仝攀瑞,雷弢,陈方方,等.高盐条件下偶氮染料兼氧生物降解性能研究[J].郑州大学学报(工学版),2012,33(01):75-78.[doi:10.3969/j.issn.1671-6833.2012.01.019]
 TONG Panrui,LEI Tao,CHEN Fangfang,et al.Study on Facultative Anaerobic Biodegradation Performance of Azo Dyestuffunder High Salt-containing Condition[J].Journal of Zhengzhou University (Engineering Science),2012,33(01):75-78.[doi:10.3969/j.issn.1671-6833.2012.01.019]
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高盐条件下偶氮染料兼氧生物降解性能研究()
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《郑州大学学报(工学版)》[ISSN:1671-6833/CN:41-1339/T]

卷:
33
期数:
2012年01期
页码:
75-78
栏目:
出版日期:
2012-01-10

文章信息/Info

Title:
Study on Facultative Anaerobic Biodegradation Performance of Azo Dyestuffunder High Salt-containing Condition
作者:
仝攀瑞雷弢陈方方等.
西安工程大学环化学院,陕西西安,710048, 陕西省咸阳市华润印染有限责任公司,陕西咸阳,712000
Author(s):
TONG PanruiLEI TaoCHEN Fangfangetc;
1. College of Eavironment and Chemistry Engineering; Xi’an Polytechnie University, Xi’an 710048, China: 2. Shaanxi chinaResourees Printing & Dyeing Co. td.,Xianyang 712000,China
关键词:
高盐条件 偶氮染料 兼性厌氧 生物降解
Keywords:
salt-containing condition azo dyestuff facultative anaerobic biodegradation
分类号:
X791
DOI:
10.3969/j.issn.1671-6833.2012.01.019
摘要:
研究活性染料与不同浓度葡萄糖在共基质条件下的兼氧生物降解性能,在此基础上,研究K-2BP在不同盐浓度条件下的兼氧生物降解性能.选择K-2BP作为目标污染物进行静态反应器生物降解试验,结果表明:兼氧微生物在只有K-2BP作为基质时对染料的降解率较低;葡萄糖存在时,能提高兼氧生物对染料的降解能力,葡萄糖为800 mg/L时,6h染料降解率为64.1%,而葡萄糖浓度为1 000 mg/L时,不利于染料降解,6h染料降解率为46%,与不投加葡萄糖情况的降解率接近.葡萄糖浓度为800mg/L,盐浓度分别为2,5,10和20 g/L,其一级降解动力常数分别为0.105 78,0.049 47,0.028 69,0.022 75 mg/L·h;半衰期分别为6.99,14.15,22.55,30.21 h.随盐浓度梯度升高,染料的兼氧降解动力学常数逐渐降低,当盐浓度超过2 g/L时,会抑制兼氧微生物对染料的降解.
Abstract:
The facultative biodegradation performance of reactive dyestulis is studied by using different concentralions glucose as co-substrate. Based on this , the facultative biodegradation performance of K-2BP under dif.ferent salt-containing condition was investigated by static test reactor. The results indicated that facultative mi.croorganisms had lower degradation rate when only K-2BP was used as the substrate, and the degradation ratewould be increased under the existence of the glucose. The glucose concentration is 800 mg/l, while the degradation rate of K-2BP is 64. 19% at 6h. However, it is detrimental to dye’s biodegradation when the glucogeconcentration is up to 1000 mg/l, the degradation rate is only about 46% , that is similar to the conditionwithout glucose. On the premise of glucose concentration 800 mg/L, when the salt concentrations are 2 g/L.5 g/L ,10 g/L. and 20 g/L. respectively,the first-order kinetics constants are 0. 10578 mg/L · h 0.04947 mgL .h 0.02869 mg/L . h and 0.022 75 mg/l. . h respectively. And the halflives were 6.99 h、14.15 h、22.55 h and 30, 21h reepectively, The reaetion rate constants decrease gradually with the increase of the salt coneentrations ,and when the salt concentration is more than 2g/l., it can restrain the facultative microorganismsdegradation of K-2BP will be restrained.
更新日期/Last Update: 1900-01-01