Optimization of Biodiesel Production by Response Surface Methodology and Genetic Algorithm

R. Singhal, P. Seth, D. Bangwal, S. Kaul
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引用次数: 10

Abstract

The biodiesel production from alkali-catalyzed transesterification of karanja oil was investigated. In this study, the effect of three parameters, i.e., reaction temperature, catalyst concentration, and molar ratio of methanol to oil on biodiesel yield was studied. Central composite design (CCD) along with response surface methodology (RSM) was used for designing experiments and estimating the quadratic response surface. Catalyst concentration was found to have a negative effect on biodiesel yield, whereas molar ratio showed positive effect. Temperature and molar ratio showed significant interaction effect. The reaction conditions were optimized for maximum response, i.e., biodiesel yield from RSM. The program for the RSM model, coupled with genetic algorithm (GA), was developed for predicting the optimized process parameters for maximum biodiesel yield to obtain a global optimal solution. The results were found to be similar from both of the methods.
基于响应面法和遗传算法的生物柴油生产优化
研究了以茴香油为原料进行碱催化酯交换制备生物柴油的工艺。本研究考察了反应温度、催化剂浓度、甲醇与油的摩尔比三个参数对生物柴油产率的影响。采用中心复合设计(CCD)和响应面法(RSM)进行实验设计和二次响应面估计。催化剂浓度对生物柴油产率有负影响,而摩尔比对生物柴油产率有正影响。温度和摩尔比的相互作用显著。对反应条件进行了优化,以获得最大的响应,即RSM的生物柴油产量。结合遗传算法(GA),编制了RSM模型的程序,预测生物柴油产量最大化的优化工艺参数,从而得到全局最优解。两种方法的结果是相似的。
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