利用响应面法优化保加利亚乳杆菌在水相体系中批量吸附铅的过程。

Process optimization of batch biosorption of lead using Lactobacillius bulgaricus in an aqueous phase system using response surface methodology.

机构信息

Department of Chemical Engineering, Tarbiat Modares University, Tehran, Iran.

出版信息

World J Microbiol Biotechnol. 2012 May;28(5):2047-55. doi: 10.1007/s11274-012-1007-4. Epub 2012 Feb 10.

Abstract

Response surface methodology (RSM) based on central composite rotatable design was used to investigate the effects of operating variable, mainly, pH, weight of biomass, and initial lead ion concentration on the lead adsorption capacity at ambient temperature using dried cells of Lactobacillius bulgaricus. Using RSM, quadratic polynomial equation was obtained for predicting the percent of lead ion removal. Analysis of variance showed that the effects of pH and weight of dried biomass were concluded to be the key factors influencing the capacity of lead ion removal. At pH lower than 2 (high acidic condition) and in alkaline condition, there is no significant biosorption. The optimum percent of lead ion removal was found at pH of 6.78, biomass concentration of 6.58 g/l and initial lead concentration 36.22 ppm. In this condition, percent of lead ion removal was 86.21%. This study showed RSM effectiveness for modeling of biosorption process.

摘要

采用基于中心复合旋转设计的响应面法（RSM），研究了操作变量（主要是 pH 值、生物量重量和初始铅离子浓度）对保加利亚乳杆菌干细胞在环境温度下的铅吸附能力的影响。利用 RSM，得到了预测铅离子去除率的二次多项式方程。方差分析表明，pH 值和干生物质重量的影响被归结为影响铅离子去除能力的关键因素。在 pH 值低于 2（强酸条件）和碱性条件下，生物吸附不明显。在 pH 值为 6.78、生物质浓度为 6.58 g/L 和初始铅浓度为 36.22 ppm 的最佳条件下，铅离子去除率为 86.21%。本研究表明 RSM 可有效用于生物吸附过程的建模。

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利用响应面法优化保加利亚乳杆菌在水相体系中批量吸附铅的过程。

Process optimization of batch biosorption of lead using Lactobacillius bulgaricus in an aqueous phase system using response surface methodology.

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