Optimization of Crude Oil and PAHs Degradation by Stenotrophomonas rhizophila KX082814 Strain through Response Surface Methodology Using Box-Behnken Design

P. Virupakshappa, Manjunatha Bukkambudhi Krishnaswamy, G. Mishra, Mohammed Ameenuddin Mehkri
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引用次数: 15

Abstract

The present paper describes the process optimization study for crude oil degradation which is a continuation of our earlier work on hydrocarbon degradation study of the isolate Stenotrophomonas rhizophila (PM-1) with GenBank accession number KX082814. Response Surface Methodology with Box-Behnken Design was used to optimize the process wherein temperature, pH, salinity, and inoculum size (at three levels) were used as independent variables and Total Petroleum Hydrocarbon, Biological Oxygen Demand, and Chemical Oxygen Demand of crude oil and PAHs as dependent variables (response). The statistical analysis, via ANOVA, showed coefficient of determination R 2 as 0.7678 with statistically significant P value 0.0163 fitting in second-order quadratic regression model for crude oil removal. The predicted optimum parameters, namely, temperature, pH, salinity, and inoculum size, were found to be 32.5°C, 9, 12.5, and 12.5 mL, respectively. At this optimum condition, the observed and predicted PAHs and crude oil removal were found to be 71.82% and 79.53% in validation experiments, respectively. The % TPH results correlate with GC/MS studies, BOD, COD, and TPC. The validation of numerical optimization was done through GC/MS studies and % removal of crude oil.
Box-Behnken设计响应面法优化嗜根窄养单胞菌KX082814对原油和多环芳烃的降解
本文介绍了原油降解的工艺优化研究,这是我们早期对分离的嗜根寡食单胞菌(PM-1)的碳氢化合物降解研究的延续,GenBank登录号为KX082814。以温度、pH、盐度、接种量(3个水平)为自变量,原油总烃、生物需氧量、化学需氧量和多环芳烃为因变量(响应),采用Box-Behnken设计响应面法对工艺进行优化。经方差分析,二阶二次回归模型的决定系数r2为0.7678,P值为0.0163,拟合具有统计学意义。结果表明,最佳温度、pH、盐度和接种量分别为32.5°C、9、12.5和12.5 mL。在此优化条件下,验证实验的PAHs去除率和原油去除率分别为71.82%和79.53%。TPH %结果与GC/MS研究、BOD、COD和TPC相关。通过气相色谱/质谱和原油去除率对数值优化结果进行了验证。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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