S. Adoga, O. Igbum, Glory Okopi, B. A. Ikyenge, Okwori Isaacs Ochi, P. Ode
{"title":"n -粘土催化低密度聚乙烯和聚丙烯废弃物裂解制燃料油的研究","authors":"S. Adoga, O. Igbum, Glory Okopi, B. A. Ikyenge, Okwori Isaacs Ochi, P. Ode","doi":"10.2478/auoc-2022-0007","DOIUrl":null,"url":null,"abstract":"Abstract Dealing effectively with plastic wastes has been a major global challenge. Different methods have been previously employed to proffer solution to plastic wastes problem however, all showed their energetic, economic and environmental implications. In this research, catalytic pyrolysis of low density polyethylene and polypropylene wastes was carried out to proffer solution to the problem. The plastic materials were collected and appropriately prepared after which ultimate and proximate analysis was carried out on them. The clay was collected from Naka, Gwer West Local Government Area of Benue State, Nigeria, thereafter, referred to as N-clay and was appropriately prepared, then analyzed by a BET analyzer for the following properties: the surface area, which was found to be 85.418 m2/g, pore size 2.100 nm and pore volume of 0.042 cc/g. Also, the XRF determination of the chemical composition of the N-clay was done and the SiO2/Al2O3 ratio was found to be 70.81/29.19. The N-clay and the plastics were then pyrolyzed in a chemical vapor deposition (CVD) reactor in the ratio 1:3 respectively, at 500 oC with residence time of 30 min using nitrogen as purge gas. The polypropylene yielded 70.34 % liquid oil, 6.43 % char and 23.23 % gas. The liquid was analyzed for functional groups, using Raman spectrometer. Physicochemical analysis was also done on the oil and it was determined that the oil had properties consistent with commercial-grade gasoline. The low density polyethylene yielded wax, instead of liquid, char and gas. Finally, it was concluded that the N-clay was suitable as catalyst for the pyrolysis of plastics and the fuel oil obtained from polypropylene pyrolysis is comparable to gasoline fuel.","PeriodicalId":19641,"journal":{"name":"Ovidius University Annals of Chemistry","volume":"59 1","pages":"50 - 55"},"PeriodicalIF":1.0000,"publicationDate":"2022-01-01","publicationTypes":"Journal Article","fieldsOfStudy":null,"isOpenAccess":false,"openAccessPdf":"","citationCount":"1","resultStr":"{\"title\":\"Catalytic pyrolysis of low density polyethylene and polypropylene wastes to fuel oils by N-clay\",\"authors\":\"S. Adoga, O. Igbum, Glory Okopi, B. A. Ikyenge, Okwori Isaacs Ochi, P. Ode\",\"doi\":\"10.2478/auoc-2022-0007\",\"DOIUrl\":null,\"url\":null,\"abstract\":\"Abstract Dealing effectively with plastic wastes has been a major global challenge. 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引用次数: 1
摘要
有效处理塑料垃圾一直是全球面临的一项重大挑战。以前已经采用了不同的方法来解决塑料垃圾问题,然而,所有的方法都显示了它们的能源、经济和环境影响。本研究通过对低密度聚乙烯和聚丙烯废弃物进行催化热解来解决这一问题。收集并适当制备塑料材料,然后对其进行最终和近似分析。该粘土采自尼日利亚贝努埃州Gwer West Local Government Area的Naka,经适当制备后称为N-clay,经BET分析仪分析,其比表面积为85.418 m2/g,孔径为2.100 nm,孔体积为0.042 cc/g。对n -粘土的化学成分进行了XRF测定,SiO2/Al2O3的比值为70.81/29.19。然后在化学气相沉积(CVD)反应器中,以氮气为吹扫气体,在500℃下,以1:3的比例分别热解n -粘土和塑料,停留时间为30 min。聚丙烯产油率为液态油70.34%,炭6.43%,气23.23%。用拉曼光谱仪分析液体中的官能团。对该油进行了理化分析,确定该油具有与商品级汽油一致的性能。低密度聚乙烯产生的是蜡,而不是液体、炭和气体。最后得出n -粘土适合作为塑料热解的催化剂,聚丙烯热解得到的燃料油与汽油燃料相当。
Catalytic pyrolysis of low density polyethylene and polypropylene wastes to fuel oils by N-clay
Abstract Dealing effectively with plastic wastes has been a major global challenge. Different methods have been previously employed to proffer solution to plastic wastes problem however, all showed their energetic, economic and environmental implications. In this research, catalytic pyrolysis of low density polyethylene and polypropylene wastes was carried out to proffer solution to the problem. The plastic materials were collected and appropriately prepared after which ultimate and proximate analysis was carried out on them. The clay was collected from Naka, Gwer West Local Government Area of Benue State, Nigeria, thereafter, referred to as N-clay and was appropriately prepared, then analyzed by a BET analyzer for the following properties: the surface area, which was found to be 85.418 m2/g, pore size 2.100 nm and pore volume of 0.042 cc/g. Also, the XRF determination of the chemical composition of the N-clay was done and the SiO2/Al2O3 ratio was found to be 70.81/29.19. The N-clay and the plastics were then pyrolyzed in a chemical vapor deposition (CVD) reactor in the ratio 1:3 respectively, at 500 oC with residence time of 30 min using nitrogen as purge gas. The polypropylene yielded 70.34 % liquid oil, 6.43 % char and 23.23 % gas. The liquid was analyzed for functional groups, using Raman spectrometer. Physicochemical analysis was also done on the oil and it was determined that the oil had properties consistent with commercial-grade gasoline. The low density polyethylene yielded wax, instead of liquid, char and gas. Finally, it was concluded that the N-clay was suitable as catalyst for the pyrolysis of plastics and the fuel oil obtained from polypropylene pyrolysis is comparable to gasoline fuel.