Case study: plant design to obtain a diesel-like fuel from soybean oil cracking for decentralised energy generation to Brazilian isolated communities

IF 3.6 Q3 GREEN & SUSTAINABLE SCIENCE & TECHNOLOGY

International Journal of Sustainable Engineering Pub Date : 2021-08-20 DOI:10.1080/19397038.2021.1966122

J. Rodrigues, P. A. Z. Suarez, G. Ghesti, O. Iha, I. B. Reis, R. R. Lavich

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引用次数: 1

Abstract

ABSTRACT Based on Brazilian isolated communities’ situation about absence energy distribution, mainly in the Amazon, northeastern semi-arid and isolated regions of the Savana, some alternatives should be developed to produce electric power for energy supply. Looking for the capacities and sources of these communities, the oilseed production capacity is the most promised. So, a easy to handle pilot plant for cracking oils and fats was developed to produce biofuels. This study aimed to analyse the mass and energy balances of the pilot plant to check its viability for sustainable energy supply. For this, three different cracking temperatures (663 K, 678 K and 693 K) were studied, and reaction data was collected. The physicochemical properties are similar to those of petroleum diesel, indicating that thermal cracking fuel may be a viable alternative to this fossil fuel in diesel cycle engines. The best temperature for the cracking reaction was 678 K, due to the physicochemical parameters of the biofuel produced being similar to those of fossil diesel. So, according to energy production system, the cracking temperatures 678 and 693 K are recommended.

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案例研究：从大豆油裂解中获得类柴油燃料的工厂设计，用于向巴西偏远社区分散发电

摘要基于巴西偏远社区（主要分布在亚马逊、东北部半干旱和萨凡纳的偏远地区）缺乏能源分配的情况，应开发一些替代能源来生产电力供应。从这些社区的能力和来源来看，油籽生产能力是最有希望的。因此，开发了一种易于操作的裂解油脂的中试装置来生产生物燃料。本研究旨在分析试验工厂的质量和能量平衡，以检查其可持续能源供应的可行性。为此，研究了三种不同的裂化温度（663K、678K和693K），并收集了反应数据。物理化学性质与石油柴油相似，表明热裂解燃料可能是柴油循环发动机中这种化石燃料的可行替代品。裂解反应的最佳温度为678K，这是因为所生产的生物燃料的物理化学参数与化石柴油的物理化学指标相似。因此，根据能源生产系统，建议裂解温度为678和693K。

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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来源期刊

International Journal of Sustainable Engineering GREEN & SUSTAINABLE SCIENCE & TECHNOLOGY-

CiteScore

7.70

自引率

0.00%

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