Bio-oil production from pyrolysis of Polypropylene using dolomite catalyst

Technium Pub Date : 2023-11-01 DOI:10.47577/technium.v17i.10043
None Yorinda Buyang, None Yenni Pintauli Pasaribu, None Paulus Mangera, None Dina Kartika Maharani, None Novike Bela Sumanik
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Abstract

Polypropylene is converted into bio-oil through catalytic pyrolysis using dolomite as a catalyst. The purpose of this study was to determine the effect of using dolomite directly without prior treatment on the bio-oil produced from the pyrolysis of propylene plastic. The amount of loading catalyst used is 5%. Increasing the pyrolysis temperature from 350 to 450 ℃ increased bio-oil from 35.56 wt% to 64.84 wt% by reducing gas to 21.08 wt%. In thermal pyrolysis, the production of bio-oil is 85 wt% with 19.30 wt% char. In the GC-MS analysis of bio-oil from thermal and catalystic pyrolysis, the most dominant alcohol composition was obtained. Based on the result of the analysis, it can be concluded that the bio-oil obtained can be further developed into fuel.
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用白云石催化剂热解聚丙烯制备生物油
以白云石为催化剂,通过催化热解将聚丙烯转化为生物油。本研究的目的是确定不经处理直接使用白云石对丙烯塑料热解生产生物油的影响。负载催化剂用量为5%。将热解温度从350℃提高到450℃,将生物油从35.56 wt%增加到64.84 wt%,将气体减少到21.08 wt%。在热热解中,生物油的产量为85% wt%,炭的产量为19.30% wt%。在热热解和催化热解的生物油的GC-MS分析中,得到了最主要的醇成分。根据分析结果,可以得出结论,所得生物油可以进一步开发为燃料。
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