石油烃混合降解菌对汽油污染土的降解条件优化试验研究
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X53;X172

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重庆社会事业与民生保障科技创新专项(cstc2017shms-zdyfX0073);国家自然科学基金(51978103、41831282)


Optimization of degradation conditions of gasoline-contaminated soil by petroleum hydrocarbon-degrading bacteria
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    摘要:

    为测定实验室提取的5种石油烃降解菌的混合菌悬液对汽油污染土的降解效果,利用气相色谱-质谱联用仪对经过降解菌降解的汽油污染土化合物进行定性分析,以鉴定此混合菌悬液对汽油污染土是否有降解能力;考虑pH值、温度、土壤含水率及降解菌接种量等因素,采用单因素试验和多因素正交试验进行降解率测定,以优化此混合菌悬液对汽油污染土的降解条件。试验结果表明,单因素试验条件下,经过试验前后化合物组分比较发现,实验室提取的5种混合降解菌对汽油污染土有良好的降解能力;由相对峰面积比图发现,温度和降解菌接种量相对于含水率和pH值这两个因素来说,对混合降解菌降解效果的影响更为显著;当pH值在6~8、降解温度在30~35 ℃、含水率在15%~25%、降解菌接种量在1~2.5 mL范围时,混合菌悬液的降解效果相对明显。多因素正交试验条件下,混合菌悬液的最佳降解条件是:温度为32 ℃,pH值为7,降解菌接种量为1 mL,含水率为25%。

    Abstract:

    In order to determine the degradation of mixed bacterial suspension of five petroleum hydrocarbon degrading bacteria extracted in the laboratory on gasoline-contaminated soil, we had made use of gas chromatography-mass spectrometry to implement qualitative analysis on gasoline-contaminated soil compounds degraded by degrading bacteria in order to assess whether such mixed bacterial suspension has the ability to degrade the gasoline-contaminated soil.Moreover, considering the factors of pH value, temperature, soil moisture content and inoculation amount of degrading bacteria, single factor test and multi-factor orthogonal test were adopted to determine the degradation rate with the purpose of optimizing the degradation conditions of gasoline-contaminated soil by the mixed bacterial suspension.Under the single factor test, the compound components before and after the test were compared, it was found that these five degrading bacteria extracted in the laboratory have good ability to degrade the gasoline-contaminated soil.And from the relative peak area ratio chart, it is discovered that temperature and inoculation of degrading bacteria have more significant effects on the degradation of degrading bacteria than moisture content and pH.When the pH is between 6 and 8, the degradation temperature between 30 ℃ and 35 ℃, the moisture content between 15% and 25% and the inoculation amount of degrading bacteria between 1 ml and 2.5 ml, the degradation effect of mixed bacterial suspension is relatively obvious.Under the condition of multi-factor orthogonal test, the optimum degradation conditions of mixed bacterial suspension are as follows: temperature is 32℃; pH value is 7; inoculation amount of degrading bacteria is 1 mL and water content is 25%.

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曹小方,方祥位,刘汉龙,张楠,张娟.石油烃混合降解菌对汽油污染土的降解条件优化试验研究[J].土木与环境工程学报(中英文),2020,42(2):195-202. Cao Xiaofang, Fang Xiangwei, Liu Hanlong, Zhang nan, Zhang Juan. Optimization of degradation conditions of gasoline-contaminated soil by petroleum hydrocarbon-degrading bacteria[J]. JOURNAL OF CIVIL AND ENVIRONMENTAL ENGINEERING,2020,42(2):195-202.10.11835/j. issn.2096-6717.2019.180

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  • 收稿日期:2019-10-08
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  • 在线发布日期: 2020-04-28
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