Optimizing Aluminum Melting with Sustainable Biomass Fuels: A Case Study of Ulin (Eusideroxylon zwageri) Wood and Galam (Melaleuca cajuputi) Wood

Teguh Suprianto, Muhammad Kasim, Akbar Ela Heka, D. Darmansyah
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Abstract

Wood waste biomass has emerged as an abundant source of alternative energy. This alternative energy source holds significant potential in the industrial sector, particularly in the field of metal casting. The development of aluminum melting equipment aims to provide invaluable support to aluminum craftsmen by harnessing wood waste as an easily accessible fuel source. The approach employed in this research involves the design of a wood waste combustion chamber capable of reaching the aluminum melting point. Two types of wood, Ulin (Eusideroxylon zwageri) and Gelam (Melaleuca cajuputi), were utilized in the study. The research achieved a temperature of 863°C in 28 minutes with Ulin wood, whereas with Gelam, a temperature of 821°C was reached in 29 minutes. This study makes a significant contribution to the efficient utilization of wood waste biomass in the aluminum casting industry, offering remarkable environmental and economic benefits.
利用可持续生物质燃料优化铝熔炼:乌林木(Eusideroxylon zwageri)和加兰木(Melaleuca cajuputi)案例研究
木材废料生物质已成为一种丰富的替代能源。这种替代能源在工业领域,特别是在金属铸造领域具有巨大潜力。铝熔化设备的开发旨在利用木材废料这种易于获取的燃料来源,为铝工匠提供宝贵的支持。本研究采用的方法包括设计一个能够达到铝熔点的木材废料燃烧室。研究中使用了两种木材,即乌林(Eusideroxylon zwageri)和格兰(Melaleuca cajuputi)。研究发现,乌林木在 28 分钟内达到 863°C 的温度,而 Gelam 在 29 分钟内达到 821°C 的温度。这项研究为铝铸造业有效利用木材废料生物质做出了重大贡献,带来了显著的环境和经济效益。
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