Karakteristik biopelet tempurung kelapa dan serbuk kayu sebagai bahan bakar alternatif

ARMATUR : Artikel Teknik Mesin & Manufaktur Pub Date : 2020-04-03 DOI:10.24127/armatur.v1i1.185

Muhammad Suyoko, Kemas Ridhuan, Untung Surya Dharma

{"title":"Karakteristik biopelet tempurung kelapa dan serbuk kayu sebagai bahan bakar alternatif","authors":"Muhammad Suyoko, Kemas Ridhuan, Untung Surya Dharma","doi":"10.24127/armatur.v1i1.185","DOIUrl":null,"url":null,"abstract":"Biomass is a solid waste derived from biological material that can be generated as fuel. Biomass includes plantation, agriculture, household, forest waste and waste from the wood industry, one of the uses of biomass is bio-pellet. Bio-pellet is an alternative type of energy in the form of solid fuel made from biomass raw material with a size smaller than the size of briquettes. In this research, raw materials from teak wood, acacia, and sengon wood powder were used as well as a mixture of coconut shell charcoal with tapioca adhesive. This study aims to determine the bio-pellet estimation analysis, determine the heating value required by the bio pellet in the combustion process, and determine the burning characteristics of the three types of bio pellets. The method used in this study was the process of making bio-pellet with the same treatment on each bio-pellet, variations bio pellet will be made is 50% teak wood powder and 50% coconut shell charcoal powder, 50% acacia wood powder and 50% coconut shell charcoal powder, and 50% sengon wood powder and 50% coconut shell charcoal powder. Each bio pellet uses an adhesive mixture of 5% of the raw material. The stages of the testing process are bio pellet in laboratory tests to determine the value of the composition of the levels of heat, water, ash, flying substances, and bound carbon. The next testing process is the testing process of bio pellet combustion using a bio pellet stove with a process of boiling 10 liters of water, with fire temperature, water temperature, and the remaining fuel measured. All was done at UM Metro 2 campus. The results of bio pellet testing in the laboratory stated that the highest value was in sengon bio pellet with heating value of 5815.19 cal/g, water content of 5.82%, the ash content of 9.77%, levels of flying matter 69.37%, and carbon content bound 19, 41%. For the high heating value of bio pellet burning is 784.92 kcal/hour. Then the best efficiency is the sengon bio- pellet with a value of 55%.","PeriodicalId":289003,"journal":{"name":"ARMATUR : Artikel Teknik Mesin & Manufaktur","volume":"7 1","pages":"0"},"PeriodicalIF":0.0000,"publicationDate":"2020-04-03","publicationTypes":"Journal Article","fieldsOfStudy":null,"isOpenAccess":false,"openAccessPdf":"","citationCount":"0","resultStr":null,"platform":"Semanticscholar","paperid":null,"PeriodicalName":"ARMATUR : Artikel Teknik Mesin & Manufaktur","FirstCategoryId":"1085","ListUrlMain":"https://doi.org/10.24127/armatur.v1i1.185","RegionNum":0,"RegionCategory":null,"ArticlePicture":[],"TitleCN":null,"AbstractTextCN":null,"PMCID":null,"EPubDate":"","PubModel":"","JCR":"","JCRName":"","Score":null,"Total":0}

引用次数: 0

Abstract

Biomass is a solid waste derived from biological material that can be generated as fuel. Biomass includes plantation, agriculture, household, forest waste and waste from the wood industry, one of the uses of biomass is bio-pellet. Bio-pellet is an alternative type of energy in the form of solid fuel made from biomass raw material with a size smaller than the size of briquettes. In this research, raw materials from teak wood, acacia, and sengon wood powder were used as well as a mixture of coconut shell charcoal with tapioca adhesive. This study aims to determine the bio-pellet estimation analysis, determine the heating value required by the bio pellet in the combustion process, and determine the burning characteristics of the three types of bio pellets. The method used in this study was the process of making bio-pellet with the same treatment on each bio-pellet, variations bio pellet will be made is 50% teak wood powder and 50% coconut shell charcoal powder, 50% acacia wood powder and 50% coconut shell charcoal powder, and 50% sengon wood powder and 50% coconut shell charcoal powder. Each bio pellet uses an adhesive mixture of 5% of the raw material. The stages of the testing process are bio pellet in laboratory tests to determine the value of the composition of the levels of heat, water, ash, flying substances, and bound carbon. The next testing process is the testing process of bio pellet combustion using a bio pellet stove with a process of boiling 10 liters of water, with fire temperature, water temperature, and the remaining fuel measured. All was done at UM Metro 2 campus. The results of bio pellet testing in the laboratory stated that the highest value was in sengon bio pellet with heating value of 5815.19 cal/g, water content of 5.82%, the ash content of 9.77%, levels of flying matter 69.37%, and carbon content bound 19, 41%. For the high heating value of bio pellet burning is 784.92 kcal/hour. Then the best efficiency is the sengon bio- pellet with a value of 55%.

查看原文本刊更多论文

椰子壳生物颗粒和木屑的特征作为替代燃料

生物质是一种从生物材料中提取的固体废物，可以作为燃料产生。生物质包括种植园、农业、家庭、森林废弃物和木材工业废弃物，生物质的用途之一是生物颗粒。生物颗粒是一种以生物质原料为原料制成的固体燃料形式的替代能源，其尺寸小于压块的尺寸。本研究以柚木、金合欢、松香木粉为原料，以椰壳炭与木薯胶混合而成。本研究旨在确定生物颗粒的估算分析，确定生物颗粒在燃烧过程中所需的热值，确定三种类型生物颗粒的燃烧特性。本研究采用的方法是对每一种生物颗粒进行相同处理，制成50%柚木粉和50%椰子壳炭粉、50%相思木粉和50%椰子壳炭粉、50%木香木粉和50%椰子壳炭粉的变异生物颗粒。每个生物颗粒使用5%原料的粘合剂混合物。测试过程的各个阶段是在实验室对生物颗粒进行测试，以确定其组成的热量、水分、灰分、飞行物质和结合碳的水平。接下来的测试过程是生物颗粒燃烧的测试过程，使用生物颗粒炉沸腾10升水的过程，测量火焰温度、水温和剩余燃料。所有这些都是在UM Metro 2校区完成的。实验室生物颗粒测试结果表明，最高热值为圣贡生物颗粒，热值为5815.19 cal/g，含水量为5.82%，灰分含量为9.77%，飞物含量为69.37%，碳含量为19.41%。对于生物颗粒燃烧的高热值为784.92千卡/小时。其中，生根生物颗粒的效率最高，为55%。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

求助全文

约1分钟内获得全文求助全文

来源期刊

ARMATUR : Artikel Teknik Mesin & Manufaktur

自引率

0.00%

发文量