Recycling of waste plastics to liquid fuel mixture over composite zeolites catalysts

Keywords: polymer wastes, hydrogenation thermocatalytic recycling, zeolite, morphology of catalysts, hydrocracking

Abstract

Plastic waste production and consumption is increasing at an alarming rate with the increase of the human population, rapid economic growth, continuous urbanization, and changes in lifestyle. In addition, the short life span of plastic accelerates the production of plastic waste on a daily basis. Plastic waste recycling is carried out in different ways, but in most developing countries, open or landfill disposal is a common practice for plastic waste management. Plastic recycling into feedstocks, also known as chemical recycling, is encouraged all over the world. One such area is the thermal and catalytic thermal degradation of plastics into hydrocarbon fractions, which can be used as high-quality motor fuel after appropriate processing. Hydrocracking in the presence of a catalyst is a promising method of converting waste plastic materials to high quality liquid transportation fuels with decreased amounts of olefins and heteroatoms such as S, N, Cl, N, and O.
The article deals with the study of hydrocracking of waste plastic into high quality liquid fuel on various catalysts based on natural zeolite deposits Taizhuzgen. The aim of the work is to determine the effect of new composite catalysts on the yield of liquid products by studying the specific surface and porous structure based on natural zeolite modified with Mо salt. It is established that the modification of natural zeolite with Mo affects the morphology of the catalyst, therefore, the obtained catalysts have different effects on the yield and composition of liquid fractions during the hydrogenation thermocatalytic transformation of hydrocarbons. The highest yield of liquid products (61.56%) was achieved using the 2% Mo/Taizhuzgen zeolite catalyst, which was chosen as optimal.

References

1 Al-Salem SM, Antelava A, Constantinou A, Manos G, Dutta A (2017) J Environ Manage 197:177-198. Crossref

2 Toledo JM, Aznar MP, Sancho JA (2011) Ind Eng Chem Res 50:11815-11821. Crossref

3 Munir D, Irfan MF, Usman MR (2018) Renew Sust Energ Rev 90:490-515. Crossref

4 Panda AK, Singh RK, Mishra DK (2010) Renew Sust Energ Rev 14:233-248. Crossref

5 Sogancioglu M, Ahmetali G, Yel E (2017) Enrgy Proced 118:221-226. Crossref

6 Hazrat MA, Rasul MG, Khan MMK (2015) Procedia Engineer 105:865-876. Crossref

7 Kaminsky W, Zorriqueta IJN (2007) J Anal Appl Pyrol 79(1-2):368-374. Crossref

8 Marcilla A, Gomez-Siurana A, Valdes F (2007) J Anal Appl Pyrol 79(1-2):433-442. Crossref

9 Olazar M, Lopez G, Amutio M, Elordi G, Aguado R, Bilbao J (2009) J Anal Appl Pyrol 85(1-2):359-365. Crossref

10 Shah P, Strezov V, Nelson PF (2009) Energ Fuel 23:1518-1525. Crossref

11 Paraschiv M, Kuncser R, Tazerout M, Prisecaru T (2015) Appl Therm Eng 87:424-433. Crossref

12 Williams PT, Slaney E (2007) Resources, Conservation & Recycling 51:754-769. Crossref

13 Miandad R, Barakat MA, Aburiazaiza AS, Rehan M, Ismail IMI, Nizami AS (2016) Int Biodeter Biodegr 119:239-252. Crossref

14 Zaiku X, Zhicheng L, Yangdong W, Qihua Y, Longya X, Weiping D (2010) Int J Mol Sci 11(5):2152-2187. Crossref

15 Luo M, Curtis CW (1996) Fuel Process Technol 49(1-3):91-117. Crossref

16 Joo HK, Curtis CW (1998) Fuel Process Technol 53:197-214. Crossref

17 Aubakirov YA, Tashmukhambetova ZK, Akhmetova FZ, Burkhanbekov KE, Sassykova LR, Tilla NM (2018) Herald of The Kazakh-British Technical University 15:23-27. (In Kazakh)

18 Aubakirov YA, Sassykova LR, TashmukhambetovaZK, Akhmetova FZ, Sendilvelan S, et al (2019) Rasayan Journal of Chemistry 12:1701-1709. Crossref

19 Burkhanbekov K, Aubakirov Y, Tashmukhambetova Z, Abildin T (2019) J Mater Cycles Waste 21:633-641. Crossref
Published
2021-06-30
How to Cite
Akhmetova, F., Aubakirov, Y., Tashmukhambetova, Z., Sassykova, L., Arbag, H., & Kurmangaliyeva, A. (2021). Recycling of waste plastics to liquid fuel mixture over composite zeolites catalysts. Chemical Bulletin of Kazakh National University, 101(2), 12-18. https://doi.org/https://doi.org/10.15328/cb1117