Rhizoclonium grande Bioethanol in Biofuel Production by Transesterification of Jatropha curcas Oil

J. Kahindo, S. Chhabra, O. J. Ochieng, T. Thoruwa
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Abstract

There is a need for an alternative sustainable fuel based on renewable sources and efficient carbon dioxide scrubbers. Alkyl esters prepared by transesterification of vegetable oils from various plants have been evaluated. In this work the potential of sustainable macroalgae bioethanol in biofuel production by transesterification of Jatropha curcas oil was assessed. Rhizoclonium grande macroalgae was collected from Shimoni shores in Kwale, Shelly beach in Mombasa, Jamvi la Wageni in Mtongwe Likoni, English point near Kenya Marine and Fisheries Research Institute (KMFRI) Mombasa, dried and processed to obtain 5.36% ± 0.355% v/w bioethanol using Aspergilus niger for hydrolysis and Saccharomyces cerevisiae for fermentation. J. curcas seeds were collected from contracted farmers of Energy Africa in Shimba hills, Coast region. Oil from the seeds was machine cold pressed and solvent extracted using n-hexane giving 44% - 53%v/w yield. The physicochemical properties of the J. curcas oil were investigated. Transesterification of J. curcas oil was carried out using bioethanol from the algae with 63% - 70% FAEE yield. Characterisation of the bioethanol and ethyl esters was done using GC-MS. Physicochemical and fuel properties of the biofuel were investigated at Technical University of Mombasa (TUM), Jomo Kenyatta University of Agriculture and Technology (JKUAT), Government Chemist and Kenya Pipeline Laboratories in Mombasa. There was significant difference in physicochemical and fuel properties observed in density, calorific value, kinematic viscosity, pour point and cloud point between the Jatropha oil and Jatropha fatty acid ethyl esters (JAT FAEE) samples. No significant difference observed in the physicochemical and fuel properties between the JAT FAEE and standard biodiesel samples. This was according to statistical analysis of data done using STATA/SE 13.0 and Xlstat at 95% confidence level (P < 0.05) two-tailed. From the findings bioethanol from R. grande biomass used in transesterification has a potential to improve the sustainability, physicochemical and fuel properties of biofuel from J. curcas a non-food crop. The effect of the use of bioethanol and its byproduct on shelf life of the biofuel can further be investigated.
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麻疯树油酯交换制备生物燃料中的生物乙醇
需要一种基于可再生资源和高效二氧化碳洗涤器的替代可持续燃料。对不同植物的植物油经酯交换反应制备的烷基酯进行了评价。本文评价了利用麻疯树油酯交换法制备可持续发展的大型藻类生物乙醇在生物燃料生产中的潜力。在肯尼亚海洋和渔业研究所(KMFRI)蒙巴萨附近的英语点,Kwale的Shimoni海岸,蒙巴萨的Shelly海滩,Mtongwe Likoni的Jamvi la Wageni,干燥和加工,以黑曲霉水解和酿酒酵母发酵获得5.36%±0.355% v/w的生物乙醇。麻瓜种子采集自非洲能源公司在沿海地区辛巴山的签约农民。从种子中提取的油经机器冷压和正己烷溶剂萃取得到44% - 53%的v/w产率。对蓖麻油的理化性质进行了研究。用该藻类的生物乙醇对麻瓜油进行酯交换反应,FAEE产率为63% ~ 70%。采用气相色谱-质谱法对生物乙醇和乙酯进行了表征。蒙巴萨技术大学(TUM)、乔莫·肯雅塔农业技术大学(JKUAT)、政府化学家和蒙巴萨的肯尼亚管道实验室研究了生物燃料的物理化学和燃料特性。麻疯树油和麻疯树脂肪酸乙酯(JAT FAEE)样品在密度、热值、运动粘度、倾点和浊点等理化性质和燃料性质上存在显著差异。JAT FAEE和标准生物柴油样品在物理化学和燃料特性方面没有显著差异。这是根据使用STATA/SE 13.0和Xlstat在95%置信水平(P < 0.05)双尾数据进行的统计分析得出的。从研究结果来看,用于酯交换的大戟生物量生物乙醇有可能改善非粮食作物麻瓜生物燃料的可持续性、物理化学和燃料特性。生物乙醇及其副产品的使用对生物燃料保质期的影响可以进一步研究。
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