Green Product of Liquid Fuel from Plastic Waste by Pyrolysis at 900 ℃

Green Product of Liquid Fuel from Plastic Waste by Pyrolysis at 900 ℃

下载PDF

导出

摘要 Alternative treatments to convert plastic waste into fuel currently receive great attention from researchers worldwide. The objective of the research is to obtain liquid fuel from pyrolysis of waste plastics that is safe for humans as well as environment, with a heating value and fuel quality meet the standardized compliant. The method used for the research is plastic waste pyrolysis heated at 900 ℃, and the resulting vapor is condensed through a crossflow condenser. The method resulted in a liquid fuel with a calorific value of 46,848 J/g, which is greater than that of plastic waste processing at a temperature of 425 ℃ that is only 41,870 J/g. In addition, the nature of current method for treating plastic waste is considered more secure than that of plastic waste processing at the temperature of 425 ℃. The reason for this is the fact that the percentage of compounds that could potentially be carcinogenic （boric acid and cyclopentanone） is reduced.

作者 Dianta Mustofa Kamal Fuad Zainuri

机构地区 Department of Mechanical Engineering

出处《Journal of Energy and Power Engineering》 2015年第1期40-44,共5页 能源与动力工程（美国大卫英文）

关键词 Plastic waste FUEL PYROLYSIS green product 废塑料处理液体燃料绿色产品裂解研究人员塑料垃圾燃料质量塑料加工

分类号 TQ517.4 [化学工程] X783.2 [环境科学与工程—环境工程]

引文网络
相关文献

参考文献19

1Anggono. 2009. "Pyrolysis of Waste Plastics to Getting Liquid Smoke and Determination oj Chemical Components and Its compiler Ability Test for Liquid Fuels." Sainsdan Terapan Kimia 3 (2): 174-82.
2Sarker, M .? and Rashid. M. M. 2013. "Food Container Waste Plastic Conversion into Fuel." International Journal oj Engineering and Applied Sciences 3 (I): 1-16.
3Kays, W. M .? and London. A. L. 1955. Compact Heat Exchangers. Palo Alto: National Press.
4Abatneh, Y .? and Sahu, 0.2013. "Preliminary Study on the Conversion of Different Waste Plastics into Fuel Oil." International Journal of Scientific & Technology Research 2 (5): 226-9.
5Sapriyanto, A .? 2011. Plastic Waste Converters Being Oil. Green Product of Liquid Fuel from Plastic Waste by Pyrolysis at 900 DC Indonesia.
6Damanhuri, E., 2009. Management of Hazardous and Toxic Materials (B3). Bandung Institut of Technology.
7Rodiansono, Triyono, W. T. 2007. "Preparation, Characterization and Activity Test of NiMo/Z and NiMo/Z-Nb20s Catalysts for Hydro Cracking of Waste Plastic Fraction to Gasoline Fraction." Berkala MIPA 17 (2): 43-S4.
8Kreith, F., and William, Z. B. 1980. Basic Heat Transfer. New York: Harper & Row.
9Kamal, D. M., 2013. "Poly tech: Conversion Machine of Plastikinto Oil Fuel with Continuous System and Reservoir Wet-Steam Oil with 20 kg Capacities." In Proceedings of AISC, 283-7.
10Sari. 2011. The Calorific Value Combustion Optimization Bio-briquettes Coal Mixed with Coconut Shell Charcoal. Sebelas Maret University, Surakarta, Indonesia.

1张济宇.欧洲对汽车排气和燃料质量的新规定[J].环境监测管理与技术,2000,12(B12):63-63.
2魏春.市区主要交通路口机动车排气污染现状调查及防治对策[J].黑龙江环境通报,2006,30(1):64-66.
3云非.燃油品质及其对发动机排放的影响分析[J].北京汽车,2008(2):19-22. 被引量：1
4赵廷林,陈学军,何鸿玉,万军,姚天祥.废塑料处理的研究初探[J].资源节约和综合利用,2000(4):51-53.
5常鹏.废弃电器电子产品处理技术浅谈[J].青海环境,2014,24(3):119-122.
6廖洪强.治理“白色污染”新技术[J].首钢科技,2002(4):12-14. 被引量：1
7马占峰,陈燕,孟丽宏.废塑料的识别和对环境无害处理及其处置的技术指导草案(续四)[J].再生资源研究,2003(5):4-6.
8饶利滨.国外废塑料处理与环境保护[J].塑料,1994,23(3):22-26. 被引量：11
9CHEN Lie-qiang,CHEN Yuan,CAI Ming-zhao.Advances in study of dehalogenation of plastic waste by pyrolysis[J].Journal of Chemistry and Chemical Engineering,2007,1(1):50-56. 被引量：2
10刘元鹏.改进燃料质量,减低汽车排放污染物[J].汽车运输节能技术,1999(1):32-37.

Journal of Energy and Power Engineering

2015年第1期

浏览历史

内容加载中请稍等...

Green Product of Liquid Fuel from Plastic Waste by Pyrolysis at 900 ℃

参考文献19

相关作者

相关机构

相关主题

浏览历史