Energy Balance Of Third Generation Bioethanol

ENP Engineering Science Journal Pub Date : 2022-07-29 DOI:10.53907/enpesj.v2i1.97

Amina Allouache, M. Aziza, T. Ahmed Zaid, M. Amouri

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Abstract

Global greenhouse gas emissions are constantly increasing, despite the partial replacement of fossil fuels by renewable energies. The transport sector is responsible for almost 24% of direct CO2 emissions from the combustion of fossil fuels, generating greenhouse gas emissions, highlighting the need for a greater focus of international policies to encourage the production and the use of biofuels. Bioethanol is the most consumed biofuel in the world; it is produced by fermentation from materials rich in sugar (glucose, starch, cellulose). However, the controversy around the use of first and second generation have forced the transition to the third generation based on marine and freshwater algae; the latter have the advantage of being abundant, even invasive, easy to cultivate with good energy potential. This study proposes a life cycle analysis (LCA) of bioethanol production from the macro algae Ulva Lactuca, it was carried out after the introduction of several data into the SimPro8.1 software (e.g. quantity of water, consumed electricity, used chemicals) using the Impact 2002+ methodology. The results show a positive energy balance reflecting high-energy efficiency since the system produces about 1.44 times the energy consumed.

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第三代生物乙醇的能量平衡

尽管可再生能源部分替代了化石燃料，但全球温室气体排放量仍在不断增加。在化石燃料燃烧产生的二氧化碳直接排放量中，交通运输部门占了近24%，产生了温室气体排放，这突出表明，国际政策需要更加注重鼓励生物燃料的生产和使用。生物乙醇是世界上消耗最多的生物燃料;它是由富含糖的原料(葡萄糖、淀粉、纤维素)发酵而成的。然而，围绕第一代和第二代使用的争议迫使过渡到基于海洋和淡水藻类的第三代;后者的优点是资源丰富，甚至具有侵入性，易于栽培，具有良好的能量潜力。本研究提出了从大型藻类Ulva Lactuca生产生物乙醇的生命周期分析(LCA)，它是在SimPro8.1软件中引入几个数据(例如水的数量，消耗的电力，使用的化学品)后使用Impact 2002+方法进行的。结果表明，由于系统产生的能量约为消耗能量的1.44倍，因此能量平衡为正，反映了高能量效率。

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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ENP Engineering Science Journal

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