EXTRACTION AND TRANSESTERIFICATION OF OIL FROM PALM KERNEL CATALYSED BY 10%H2SO4 AND 10%NaOH MODIFIED CLAY MATERIALS

Journal Of Chemical Society Of Nigeria Pub Date : 2023-07-05 DOI:10.46602/jcsn.v48i3.886

L. Leke, M. E. Ogah, T. T. Weor, S. Okopi, T. T. Undo, E. S. Orhena

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Abstract

Biodiesel production has gained prominence owing to the menace of climate change believed to be caused majorly by fossil fuel combustion. The heterogeneous transesterification option is regularly employed considering its enormous advantages. This research sampled abundant and locally available and renewable materials; palm kernel (for extraction of oil) and clay (employed as a catalyst). The clay was calcined at 400 oC, modified using 10 % by weight H2SO4 and NaOH respectively, characterised by BET and X-ray diffraction and then used for transesterification with the extracted palm kernel oil to produce biodiesel in a 1: 9 oil to methanol ratio and 10 % catalyst dosage of the acid (H2SO4) and alkali (NaOH) modified clay respectively. The results show biodiesel yields of 66.67 % and 73.33 % respectively. The physicochemical characterisation of the biodiesels obtained had values that conformed with ATSM values for good biodiesel, while their GC-MS analyses confirmed the presence of many fatty acid methyl esters which are responsible for biodiesel production. X-ray diffraction and BET analyses respectively showed crystallinity and presence of some minerals with surface area (65.52 – 72.43 m2g-1), pore size (0.997 Ao) and pore volume (24.54 – 28.04 cm3/g) for the clay. These abundant environmentally friendly biofuels that are economically produced, show very good prospects of replacing fossil fuels.

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10%H2SO4和10%NaOH改性粘土材料催化棕榈仁油的提取和酯交换反应

由于气候变化的威胁被认为主要是由化石燃料燃烧引起的，生物柴油的生产得到了突出。考虑到多相酯交换的巨大优势，通常采用多相酯交换方法。这项研究取样了丰富的、当地可获得的和可再生的材料;棕榈仁(用于提取油)和粘土(用作催化剂)。将粘土在400℃下煅烧，分别用重量为10%的H2SO4和NaOH进行改性，用BET和x射线衍射进行表征，然后在酸(H2SO4)和碱(NaOH)改性粘土的催化剂用量分别为10%、油甲醇比为1:9的条件下，与提取的棕榈仁油进行酯交换制备生物柴油。结果表明，生物柴油的产率分别为66.67%和73.33%。获得的生物柴油的物理化学特征值与优质生物柴油的ATSM值一致，而他们的GC-MS分析证实了许多脂肪酸甲酯的存在，这些脂肪酸甲酯负责生物柴油的生产。x射线衍射和BET分析结果表明，黏土结晶度较高，存在部分矿物，其表面积为65.52 ~ 72.43 m2g-1，孔径为0.997 Ao，孔容为24.54 ~ 28.04 cm3/g。这些储量丰富且生产经济的环境友好型生物燃料，在替代化石燃料方面具有很好的前景。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Journal Of Chemical Society Of Nigeria

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