Elemental, Thermal and Physicochemical Investigation of Novel Biodiesel from Wodyetia Bifurcata and Its Properties Optimization using Artificial Neural Network (ANN)

Q2 Engineering

Automotive Experiences Pub Date : 2021-11-25 DOI:10.31603/ae.6171

Aditya Kolakoti, B. Prasadarao, K. Satyanarayana, M. Setiyo, Hasan Köten, Metta Raghu

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引用次数: 19

Abstract

In this study, an unexplored oil from the wodyetia bifurcata fruit was used for biodiesel production. The transesterification process was implemented to convert the raw oil into wodyetia bifurcata methyl ester (WBME) and the influence of process variables on WBME yield was examined with the response surface method (RSM) assisted Box-Behnken optimization. The results of RSM show that a maximum biodiesel yield of 94.67% was achieved and reaction time was identified as an influencing process variable. The fatty acid composition (FAC) from chromatography reveals the presence of highly unsaturated in WBME and the significant fuel properties of thermal and molecular meet the required fuel standards (ASTM). The obtained fuel properties of WBME are compared with other popularly used biodiesels and observed low kinematic viscosity (3.87mm2/sec) and moderated cetane number (53) for WBME. Furthermore, artificial neural network (ANN) tools are used for the prediction of WBME yield and show an improvement of 0.4% than RSM and low mean square error and a high coefficient of correlation was observed for ANN.

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Wodyetia Bifurcata新型生物柴油的元素、热学和理化性质研究及其人工神经网络性能优化

在本研究中，从双歧木林果实中提取的一种未开发的油用于生产生物柴油。利用响应面法(RSM)辅助Box-Behnken优化，研究了不同工艺参数对双曲木酯(WBME)收率的影响。RSM实验结果表明，生物柴油收率最高可达94.67%，反应时间是影响生物柴油收率的主要因素。脂肪酸组成(FAC)色谱分析表明，WBME中存在高度不饱和脂肪酸，热、分子等重要燃料性能符合ASTM燃料标准。通过与其他常用生物柴油进行比较，发现WBME的运动粘度较低(3.87mm2/sec)，十六烷值较低(53)。此外，人工神经网络(ANN)工具用于WBME产量的预测，结果表明，人工神经网络比RSM提高0.4%，均方误差低，相关系数高。

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