添加稻草炭对可可豆荚壳生物颗粒加工的影响

Advances in Food Science, Sustainable Agriculture and Agroindustrial Engineering Pub Date : 2020-12-10 DOI:10.21776/ub.afssaae.2020.003.02.6

R. Damayanti, S. Sandra, Novita Riski Nanda

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引用次数: 2

摘要

可可豆荚壳和稻草炭因其高热值而具有转化为生物颗粒的潜力。可可豆荚壳和稻秆炭的发热量分别为4974.837 cal/g和3569.837 cal/g。本研究旨在确定颗粒大小和稻草炭添加比例的变化对生物颗粒热值的影响。本研究采用随机区组设计因子，以稻草炭与可可豆荚壳的添加比例(0%:100%、20%:80%、40%:60%)和粒度(20、40、60、80目)为因子。结果表明:稻秆炭添加得到的生物质颗粒热值为4111.93 ~ 4706.57 cal/g，满足生物质颗粒SNI (SNI 8021-2014)要求。添加100%可可豆荚壳和80目粒径的处理可获得优质的生物颗粒。研究结果证实，添加稻草炭并不能提高生物颗粒的能量潜力(即热值)，因此它是不利的选择。

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The effect of adding rice straw charcoal to the processing of bio-pellet from cacao pod husk

Cacao pod husk and rice straw charcoal are potentially transformed into bio-pellet because of their high calorific value. Cocoa pod husk and rice straw charcoal has a calorific value of 4974.837 cal/g and 3569.837 cal/g, respectively. This research aimed to identify the effect of variations in particle size and in the addition ratio of rice straw charcoal on the calorific value of bio-pellet. Randomized block design factorial were employed in this study with factor of the addition ratio of rice straw charcoal and cacao pod husk (i.e. 0%:100%, 20% : 80%, 40% : 60%) and the particle size (i.e. 20, 40, 60 and 80 mesh). The results showed that rice straw charcoal addition resulted bio-pellet with the calorific value of 4111.93 – 4706.57 cal/g, and fulfill the SNI of bio-pellet (SNI 8021-2014). The treatment with addition of 100% cocoa pod husk and 80 mesh particle size generated the superior quality of bio-pellet. The findings confirmed that addition of rice straw charcoal did not enhance the energy potential (i.e. calorific value) of the bio-pellets, hence it is unfavourable option.

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Advances in Food Science, Sustainable Agriculture and Agroindustrial Engineering

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