A. Mandeel, T., D. Faisal, A., J. Ibraheem, I. (2014). Degradation of Plastic Wastes (PP, PET, and LDPE) for Liquid Fuel Production as alternative energy by Using Vacuum Pyrolysis Method.. Alustath, 7(2), 1-10. doi: 10.37652/juaps.2013.84991
Tariq A. Mandeel; Abdul-Qader D. Faisal; Ibraheem J. Ibraheem. "Degradation of Plastic Wastes (PP, PET, and LDPE) for Liquid Fuel Production as alternative energy by Using Vacuum Pyrolysis Method.". Alustath, 7, 2, 2014, 1-10. doi: 10.37652/juaps.2013.84991
A. Mandeel, T., D. Faisal, A., J. Ibraheem, I. (2014). 'Degradation of Plastic Wastes (PP, PET, and LDPE) for Liquid Fuel Production as alternative energy by Using Vacuum Pyrolysis Method.', Alustath, 7(2), pp. 1-10. doi: 10.37652/juaps.2013.84991
A. Mandeel, T., D. Faisal, A., J. Ibraheem, I. Degradation of Plastic Wastes (PP, PET, and LDPE) for Liquid Fuel Production as alternative energy by Using Vacuum Pyrolysis Method.. Alustath, 2014; 7(2): 1-10. doi: 10.37652/juaps.2013.84991

Degradation of Plastic Wastes (PP, PET, and LDPE) for Liquid Fuel Production as alternative energy by Using Vacuum Pyrolysis Method.

Journal of University of Anbar for Pure Science
Article 35, Volume 7, Issue 2, August 2013, Pages 1-10    PDF (1.72 M)
Document Type: Research Paper
DOI: 10.37652/juaps.2013.84991
Authors
Tariq A. Mandeel1; Abdul-Qader D. Faisal2; Ibraheem J. Ibraheem* 1
1University Of Anbar – College Of Science
2University Of Technology- Nanotechnology Center
Abstract
The plastic wastes are the more available material in the environment. These material types are: PolyPropylene (PP),PolyEthylene Terephthalate(PET) and Low Density Poly Ethylene(LDPE). Thermal degradation of those three materials was studied under vacuum environment individually and as a combination of all. The output products were characterized by Gas Chromatography(GC) and Fourier Transform Infra-Red(FTIR). Some of the physical properties was measured such as density, boiling point. The results show that degradation of combined materials was produced liquid fuel compared with standard properties preferable than individual once. A mixture product of same carbonyl compounds such carboxylic acid and unsaturated aldehyde was preliminary characterized.
Keywords
Degradation; plastic wastes; Vacuum pyrolysis; Unsaturated aldehyde
References
[1] G. Finnveden and others , "Life Cycle Assessments of Energy from Solid Waste", FOA Reprot, Ursvik ISSN; 1404-6520,2000.

[2] Mehmet Altan Kurnaz and  Ayşegül Sağlam-Arslan, A Thematic Review of Some Studies Investigating Students’. Eurasian J. Phys. Chem. Educ. 3(1):51-74, 2011

 [3] Vincenzo Giorgio Dovı, Ferenc Friedler Cleaner energy for sustainable future ` Journal of Cleaner Production xxx, 1–7, 2009

[4] M. Sadikur Rahman, M. Verma" Agricultural waste plastics conversion into high energy liquid hydrocarbon fuel by thermal degradation process" Journal of Petroleum Technology and Alternative Fuels Vol. 2(8), pp. 141-145, August 2011.

 [5] E.Ahmad, D. Kim.  Catalytic degradation of waste plastic into fuel range hydrocarbons .International Journal of Chemical Research, ISSN: 0975-3699, Volume 1, Issue 2, pp-31- 36, 2009.

 [6] M, Leenus Jesu Martin, V. Edwin Geo. Effect of diesel addition on the performance of oil fuelled DI diesel engine, Volume 2, Issue 2, pp.321-330, 2011

[7] Y.R.Sharma " elementary organin spectroscopy "4th edition by Rajendar Ravindar  printers,2011.

 [8]R. Morrison and R. Boyd ,"organic chemistry "3rd edition copyright by   Allyn and   Bacon.INC,1973.

 [9] KU. Marek,A. Surma, JE. Walendziewski, Application of combustible wastes for the alternative fuels production. Polish Journal of Chemical Technology, 9, 4, 43 – 47, 2007

[10] Y. Zhou, L. Yongfeng, U.  Zhang. Improved Hydrogen Storage Properties of  LiBH4 Destabilized, J. Phys. Chem. C, 116, 1588–1595,  2012.

Statistics
Article View: 254
PDF Download: 129


Journal Management System. Powered by ejournalplus.com