对埃塞俄比亚两种主要竹子制成的竹炭块进行评估

Tarun Kumar Lohani , Yisehak Seboka , Wondimagegn Bekele Biliso , Selim Reza , Durai Jayaraman
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引用次数: 0

摘要

这项研究的主要目的是根据生命周期评估原则研究竹炭块的生产过程。用低地竹子生产的炭块具有良好的燃料特性、较高的热值和固定碳以及较低的水分含量。灰分含量符合国际公认标准。用高地竹(Oldeania alpina)和低地竹(Oxytenanthera abyssinica)制成的竹炭块的热值分别为 6785 卡/克米和 7106 卡/克米。在理想的碳化含水量下制造竹砖可节省时间并获得最高产量。使用当地材料在规范的窑炉中生产竹生物能源(煤球)已广受欢迎。竹生物质能利用有助于减少森林砍伐,在竹价值链中创造就业机会,同时也有助于实现联合国可持续发展目标 7。发展可持续的竹生物质能源利用需要让企业家了解合适的商业生态系统。这项研究应鼓励生物质原料的合理利用,并通过提供可再生能源确保更健康的环境。本研究中最相关的发现是在竹炭压块技术生命周期评估的背景下,生产环保型木炭压块及其特征(近似值和热值分析)。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
An assessment of bamboo charcoal briquettes derived from the two main bamboo species in Ethiopia

The primary aim of this research was to study the manufacturing process of bamboo charcoal briquettes following the principles of life cycle assessment. Charcoal briquettes produced from lowland bamboo exhibited good fuel characteristics, higher calorific value and fixed carbon, and low moisture content. The ash content was in compliance with the international acceptable standard. Bamboo charcoal briquettes from highland bamboo (Oldeania alpina) and lowland bamboo (Oxytenanthera abyssinica) had calorific values of 6785 cal/gm and 7106 cal/gm, respectively. Manufacturing the briquettes at an ideal moisture content for carbonization saves time and leads to a maximum yield. Bamboo bioenergy (briquettes) produced in regulated kilns using locally available materials have gained popularity. Bamboo biomass utilization contributes to reducing deforestation and creates employment opportunities in bamboo value chains, as well as and contributing to UN SDG 7. Developing sustainable bamboo biomass energy use requires informing entrepreneurs about suitable business ecosystems. This research should encourage the proper utilization of the biomass feedstock and should ensure a healthier environment through the supply of a renewable source of energy. The most relevant findings in the present work were the production of environmentally friendly charcoal briquettes and their characterization (proximate and calorific value analysis) within the context of life cycle assessment of bamboo charcoal briquette technology.

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