Zainuri Zainuri, S. Sujianto, A. Ahmad, F. Feliatra
{"title":"Kontribusi Produksi Cellular Lightweight Concrete Serat Limbah Pelepah Kelapa Ssawit Terhadap Emisi CO2","authors":"Zainuri Zainuri, S. Sujianto, A. Ahmad, F. Feliatra","doi":"10.31258/dli.6.2.p.104-109","DOIUrl":null,"url":null,"abstract":"The vast palm oil plantations in Riau province which are 2,430,500 hectares (BPS Indonesia, 2017) have great potential as a provider of CPO (Crude Palm Oil) and other by-products and include waste. The midrib is always lowered along with the decrease in oil palm fruit bunches at harvest. Handling of waste from the midrib is only by stacking it in the field and letting it dry and self-destruct. Oil palm midribs are still a problem today because they can affect the global climate with greenhouse gas emissions. Carbon emissions can still be minimized by utilizing oil palm midribs. This study aims to measure the reduction of CO2 emissions as an added ingredient in the production of fiber CLC. Presentation of research results using descriptive methods. Research conducted in laboratories with an experimental approach is quantitative. The findings of this study are that the use of oil palm fronds as an added ingredient in producing CLC of solar and electric fuel fibers by 1 m3 can reduce CO2 emissions. The conclusion of this study is that CO2 emissions that can be reduced in the manufacture of 1 m3 of fiber CLC using diesel fuel is 111,582 tons/year and when using an electrically driven engine the CO2 emissions that can be reduced are 120.887 tons/year.","PeriodicalId":150200,"journal":{"name":"Dinamika Lingkungan Indonesia","volume":null,"pages":null},"PeriodicalIF":0.0000,"publicationDate":"2019-07-22","publicationTypes":"Journal Article","fieldsOfStudy":null,"isOpenAccess":false,"openAccessPdf":"","citationCount":"0","resultStr":null,"platform":"Semanticscholar","paperid":null,"PeriodicalName":"Dinamika Lingkungan Indonesia","FirstCategoryId":"1085","ListUrlMain":"https://doi.org/10.31258/dli.6.2.p.104-109","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
The vast palm oil plantations in Riau province which are 2,430,500 hectares (BPS Indonesia, 2017) have great potential as a provider of CPO (Crude Palm Oil) and other by-products and include waste. The midrib is always lowered along with the decrease in oil palm fruit bunches at harvest. Handling of waste from the midrib is only by stacking it in the field and letting it dry and self-destruct. Oil palm midribs are still a problem today because they can affect the global climate with greenhouse gas emissions. Carbon emissions can still be minimized by utilizing oil palm midribs. This study aims to measure the reduction of CO2 emissions as an added ingredient in the production of fiber CLC. Presentation of research results using descriptive methods. Research conducted in laboratories with an experimental approach is quantitative. The findings of this study are that the use of oil palm fronds as an added ingredient in producing CLC of solar and electric fuel fibers by 1 m3 can reduce CO2 emissions. The conclusion of this study is that CO2 emissions that can be reduced in the manufacture of 1 m3 of fiber CLC using diesel fuel is 111,582 tons/year and when using an electrically driven engine the CO2 emissions that can be reduced are 120.887 tons/year.
廖内省的大型棕榈油种植园面积达2,430,500公顷(BPS Indonesia, 2017年),作为粗棕榈油(CPO)和其他副产品(包括废物)的供应商,具有巨大的潜力。随着油棕果束在收获时的减少,中脉总是降低。处理来自中脉的废物只需要将其堆放在田地里,让它干燥并自毁。油棕的中排在今天仍然是个问题,因为它们会排放温室气体,影响全球气候。利用油棕中排也可以减少碳排放。本研究旨在测量作为纤维CLC生产中添加成分的二氧化碳排放量的减少。使用描述性方法展示研究结果。在实验室用实验方法进行的研究是定量的。这项研究的结果是,在生产1立方米的太阳能和电力燃料纤维中,使用油棕叶作为添加成分可以减少二氧化碳的排放。本研究的结论是,使用柴油制造1 m3纤维CLC可减少的CO2排放量为111,582吨/年,使用电动发动机可减少的CO2排放量为120.887吨/年。