Effect of Peanut Shell Torrefaction on Qualities of The Produced Bio-pellet

Santiyo Wibowo, N. Lestari
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引用次数: 8

Abstract

Peanut shells could be regarded as biomass wastes generated from agricultural products, which are abundantly available.  The current handling of those wastes is merely through direct incineration, without a proper and controlled manner. Consequently, it could arouse environmental concerns, such as air pollution and human respiratory diseases.  One alternative solution is converting those peanut shells to bio-pellet, expectedly applicable for fuels.  Relevantly, research on bio-pellet manufacture from peanut shells, previously treated with the torrefaction, was conducted. It’s aimed mainly to identify the fuel-related characteristics of bio-pellet products.  The tested bio-pellet parameters covered, moisture content, ash content, volatile matters, fixed carbon content, calorific values, and density.  The results revealed that torrefaction temperature and time at raw materials (peanut shells) could improve their qualities in regard to particular calorific value compared to those before such torrefaction; which referred to Indonesia’s Standard (SNI-8021-2014) for wood bio-pellet.  Further, torrefaction could increase bio-pellet quality which satisfied the SNI’s Standard, except for ash content.  Optimal torrefaction treatment was obtained at 300oC temperature for 60 minutes, whereby it achieved remarkable bio-pellet characteristics in terms of moisture content (3.092%), ash content (6.116%), volatile matters (38.387%), fixed carbon (55.447%), calorific value (6174 cal/g), and density (0.703 g/cm3). The torrefaction bio-pellets from peanut shells could achieve remarkable performances, with respect to fuel consumption rate (0.68 kg/hr), heating value (6174 kcal/kg), and thermal efficiency (16.67%).Keywords: biomass wastes, bio-pellet, conversion, peanut shells, torrefaction treatment
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花生壳发酵对生物颗粒品质的影响
花生壳是一种可利用资源丰富的农产品生物质废弃物。目前对这些废物的处理仅仅是通过直接焚烧,没有适当和控制的方式。因此,它可能引起环境问题,如空气污染和人类呼吸道疾病。另一种解决方案是将这些花生壳转化为生物颗粒,有望用于燃料。与此相关的是,对花生壳的生物颗粒制造进行了研究。它的主要目的是确定生物颗粒产品的燃料相关特性。测试的生物颗粒参数包括,水分含量,灰分含量,挥发性物质,固定碳含量,热值和密度。结果表明:花生壳原料经温度和时间的烘烤后,其热值比烘烤前有所提高;参考了印尼木质生物颗粒标准(SNI-8021-2014)。此外,除灰分含量外,焙烧可以提高生物颗粒的质量,满足SNI标准。在300℃温度下焙烧60 min获得最佳焙烧工艺,在水分(3.092%)、灰分(6.116%)、挥发物(38.387%)、固定碳(55.447%)、发热量(6174 cal/g)、密度(0.703 g/cm3)等方面均取得了较好的生物颗粒特性。花生壳焙烧生物颗粒在燃料消耗率(0.68 kg/hr)、热值(6174 kcal/kg)和热效率(16.67%)方面均取得了显著的性能。关键词:生物质废弃物,生物颗粒,转化,花生壳,焙烧处理
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发文量
15
审稿时长
2 weeks
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