Experimental study on pyrolysis of sugarcane bagasse for bioenergy production

2020 International Conference on Computer, Control, Electrical, and Electronics Engineering (ICCCEEE) Pub Date : 2021-02-26 DOI:10.1109/ICCCEEE49695.2021.9429592

Abuelnuor Abuelnuor.A.A., Mohamed Ali Abuelnour, Omara Adil A.M., Ihab Jabbar Al Rikabi, Mohammed Adel Salih Ali, Almoez Ibrahim Ahmed Awad, Moaz Ahmed

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Abstract

Energy is the economic backbone. Nowadays, the demand for cheap and clean energy has become the primary and most priority of every country looking to develop while maintaining its environment. Energy demand is increasing continuously due to rapid growth in population and industrialization development. The major energy demand is provided from fossil fuel sources. There are increasing environmental problems associated with the current use of fossil fuels. The potential for biomass to supply much larger amounts of useful energy with reduced environmental impacts than fossil fuels is this study’s aim. In this study, lab-scale pyrolysis was designed and fabricated to analyze syngas and bio-oil components from two sugar cane bagasse samples, the first sample from Kenana and the second sample from White Nile. The analysis of thermochemical and physical properties showed that the calorific value and density were equal to 41.67 MJ/kg, 1.07925 kg/m3 and 40.671 MJ/kg, 1.1309 kg/m3 for both bio-oil and tar, which proves that bio-oil would be an environmentally friendly alternative that can be used for transportation and different industrial sectors.

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蔗渣热解制备生物能源的实验研究

能源是经济支柱。如今，对廉价和清洁能源的需求已成为每个国家寻求在保持环境的同时发展的首要和最优先事项。由于人口的快速增长和工业化的发展，能源需求不断增加。主要的能源需求是由化石燃料提供的。与目前使用化石燃料有关的环境问题越来越多。与化石燃料相比，生物质能在提供更多有用能源的同时减少对环境的影响，这是本研究的目标。在本研究中，设计并制造了实验室规模的热解装置来分析两种蔗渣样品的合成气和生物油成分，第一种样品来自Kenana，第二种样品来自White Nile。热化学和物理性质分析表明，生物油和焦油的热值和密度分别为41.67 MJ/kg、1.07925 kg/m3和40.671 MJ/kg、1.1309 kg/m3，证明生物油是一种可用于交通运输和不同工业领域的环保替代品。

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2020 International Conference on Computer, Control, Electrical, and Electronics Engineering (ICCCEEE)

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