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Optimizing the physical parameters to achieve maximum products from co-liquefaction using response surface methodology

机译:使用响应面方法优化物理参数以实现共液化的最大产物

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In this study, the influence of rubber seed kernel (RSK) on Mukah Balingian (MB) coal was investigated. Co-liquefaction was performed in a tubing reactor with tetralin as the solvent at various physical parameters. The study focused on the effects of RSK weight ratio, temperature and reaction time on conversion and products distribution. This paper aims at developing an effective methodology to find the optimum conditions that maximize the co-liquefaction conversion and products by using response surface methodology (RSM). Experiments were planned as per Box-Behnken design experiments. The mathematical model for the co-liquefaction products was developed using RSM with blending the ratio of RSK, temperature, and reaction time as process parameters. The developed RSM model is to determine the optimal process conditions that affect each of the outcomes. The results of this study revealed that the proposed RSM technique managed to find the optimum physical condition, which leads to the maximum value of conversion performance. (C) 2017 Elsevier Ltd. All rights reserved.
机译:在这项研究中,研究了橡胶籽仁(RSK)对穆卡巴林根(MB)煤的影响。在管反应器中以四氢化萘为溶剂在各种物理参数下进行共液化。该研究集中在RSK重量比,温度和反应时间对转化率和产物分布的影响上。本文旨在开发一种有效的方法,以通过使用响应面方法(RSM)找到使共液化转化率和产物最大化的最佳条件。根据Box-Behnken设计实验计划了实验。使用RSM并结合RSK的比例,温度和反应时间作为工艺参数,开发了共液化产品的数学模型。开发的RSM模型用于确定影响每个结果的最佳过程条件。这项研究的结果表明,提出的RSM技术设法找到了最佳的物理条件,从而导致了转换性能的最大值。 (C)2017 Elsevier Ltd.保留所有权利。

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