Production of biodiesel from non-edible waste palm oil and sterculia foetida using microwave irradiation

IOP Conference Series: Earth and Environmental Science Pub Date : 2024-07-01 DOI:10.1088/1755-1315/1372/1/012047

J. Milano, S. K. Tiong, S. R. Chia, M. Y. Ong, A. Sebayang, M. A. Kalam

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Abstract

The environmental damage stemming from traditional diesel begins during crude oil extraction and persists throughout its usage. The burning of fossil fuels has further deteriorate the environmental effect and added to global warming by emitting harmful substances. Moreover, the reduction of finite fossil fuel reserves due to widespread extraction has made the adoption of renewable resources essential. Given these considerations, biodiesel emerges as a highly promising alternative to conventional diesel due to its environmentally beneficial nature, renewable source, and economic feasibility. In this study, biodiesel was prepared by a microwave reactor in the presence of potassium methoxide using blended waste palm oil and sterculia foetida. The effects of raw materials characteristics on transesterification products were studied. The studied process parameters were methanol/oil ratio, microwave temperature, catalyst concentration, reaction time, and stirring speed. The optimal yield with 98.5% FAME content was obtained at a methanol/oil ratio of 60 vol. %, microwave temperature of 120 °C, catalyst concentration of 0.3 wt.%, and 3 min reaction time, and stirring speed of 500 rpm. The potassium methoxide was used to catalyse the transesterification process. The physicochemical properties and the fatty acid methyl ester composition were discussed thoroughly. The flash point of biodiesel, at 157.5°C, exceeds that of diesel fuel by more than two times. The cetane index is 59.5 which is higher than diesel (49.6). The biodiesel’s fuel properties conformed to the requirements of both ASTM D6751 and EN 14214. High biodiesel conversion and low sulphur content show that waste palm oil and sterculia foetida are sustainable and economical feedstocks that produce clean fuel to aid the feasibility of the energy transition of the global energy sector. In addition, the selection of synthesis approaches can be further explored for potential catalysts to ensure eco-green biodiesel’s sustainability with minimised.

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利用微波辐照从非食用废弃棕榈油和蕨类植物中生产生物柴油

传统柴油对环境的破坏始于原油开采过程，并贯穿整个使用过程。化石燃料的燃烧进一步恶化了环境影响，并通过排放有害物质加剧了全球变暖。此外，由于广泛开采，有限的化石燃料储量减少，因此必须采用可再生资源。考虑到这些因素，生物柴油因其对环境有益的性质、可再生来源和经济可行性，成为一种极有前途的传统柴油替代品。在本研究中，使用混合废棕榈油和蕨类植物，在甲醇钾存在下通过微波反应器制备生物柴油。研究了原料特性对酯交换产物的影响。研究的工艺参数包括甲醇/油比率、微波温度、催化剂浓度、反应时间和搅拌速度。在甲醇/油比例为 60 Vol.%、微波温度为 120 ℃、催化剂浓度为 0.3 wt.%、反应时间为 3 分钟、搅拌速度为 500 rpm 的条件下，获得了最佳产率，FAME 含量为 98.5%。甲醇钾用于催化酯交换过程。对理化性质和脂肪酸甲酯组成进行了深入讨论。生物柴油的闪点为 157.5°C，比柴油高出两倍多。十六烷值指数为 59.5，高于柴油（49.6）。生物柴油的燃料特性符合 ASTM D6751 和 EN 14214 的要求。生物柴油的高转化率和低含硫量表明，废棕榈油和蕨类植物是可持续的经济原料，可生产清洁燃料，有助于全球能源行业的能源转型。此外，还可以进一步探索潜在催化剂的合成方法选择，以确保生态绿色生物柴油的可持续性最小化。

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IOP Conference Series: Earth and Environmental Science

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