Re-Design Pyrolysis Reactor Prototype for the Conversion of Plastic Waste into Liquid Fuel

The study being reported here was conducted to convert plastic waste,a major source of solid pollution in Pakistan, into liquid fuel by application of Thermal Pyrolysis. A pyrolysis reactor consisting of high strength Pyrex round bottom flask was constructed in the laboratory and used for converting plastic waste into liquid fuel. A 280g sample of plastic waste was pyrolyzed and the resultant products were 120g liquid oil, 100g solid residueand 60g gas.Thus, the yield of liquid fuel from the plastic waste was 43% wt. along with solid mass 36%wt. and gas 21 % wt. The results clearly indicate that there is a significant potential of producing liquid fuel from plastic waste in Pakistan andthe world.

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Analysis and simulation of mini pyrolysis reactor for conversion of plastic waste into fuel

Materials Today Proceedings ◽

10.1016/j.matpr.2021.02.408 ◽

2021 ◽

Author(s):

Kundan Kumar Jha ◽

T.T.M. Kannan ◽

J. Chandradass ◽

D. Vincent Herald Wilson ◽

Ashutosh Das

Keyword(s):

Plastic Waste ◽

Pyrolysis Reactor

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Plastics waste management: A review of pyrolysis technology

Clean Technologies and Recycling ◽

10.3934/ctr.2021003 ◽

2021 ◽

Vol 1 (1) ◽

pp. 50-69

Author(s):

Wilson Uzochukwu Eze ◽

◽

Reginald Umunakwe ◽

Henry Chinedu Obasi ◽

Michael Ifeanyichukwu Ugbaja ◽

...

Keyword(s):

Chemical Process ◽

Liquid Fuel ◽

Closed Loop ◽

Raw Materials ◽

Chemical Processes ◽

Plastic Waste ◽

Waste Plastics ◽

The World ◽

Pyrolysis Liquid ◽

Life Options

<abstract> <p>The world is today faced with the problem of plastic waste pollution more than ever before. Global plastic production continues to accelerate, despite the fact that recycling rates are comparatively low, with only about 15% of the 400 million tonnes of plastic currently produced annually being recycled. Although recycling rates have been steadily growing over the last 30 years, the rate of global plastic production far outweighs this, meaning that more and more plastic is ending up in dump sites, landfills and finally into the environment, where it damages the ecosystem. Better end-of-life options for plastic waste are needed to help support current recycling efforts and turn the tide on plastic waste. A promising emerging technology is plastic pyrolysis; a chemical process that breaks plastics down into their raw materials. Key products are liquid resembling crude oil, which can be burned as fuel and other feedstock which can be used for so many new chemical processes, enabling a closed-loop process. The experimental results on the pyrolysis of thermoplastic polymers are discussed in this review with emphasis on single and mixed waste plastics pyrolysis liquid fuel.</p> </abstract>

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Processing Plastic Waste HDPE and PP on Pyrolysis Temperature Using Cu-Al2O3 Catalyst Into an Alternative Liquid Fuel

Proceedings of the 4th Forum in Research, Science, and Technology (FIRST-T1-T2-2020) ◽

10.2991/ahe.k.210205.002 ◽

2021 ◽

Author(s):

Pamilia Coniwanti ◽

Fitri Hadiah ◽

David Bahrin ◽

Liza Novriani ◽

Gracia Mei Lie Justina ◽

...

Keyword(s):

Liquid Fuel ◽

Pyrolysis Temperature ◽

Plastic Waste ◽

Al2o3 Catalyst

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Pyro-Oil and Wax Recovery from Reclaimed Plastic Waste in a Continuous Auger Pyrolysis Reactor

Energies ◽

10.3390/en13082040 ◽

2020 ◽

Vol 13 (8) ◽

pp. 2040 ◽

Cited By ~ 1

Author(s):

Sultan Majed Al-Salem ◽

Yang Yang ◽

Jiawei Wang ◽

Gary Anthony Leeke

Keyword(s):

Product Distribution ◽

Plastic Waste ◽

Densification Process ◽

Plastic Pollution ◽

Waste Plastic ◽

Diesel Fuels ◽

Plastic Recycling ◽

Plastic Wastes ◽

Liquid Products ◽

Pyrolysis Reactor

The increasing global waste plastic pollution is urging people to take immediate actions on effective plastic recycling and processing. In this work, we report the results of processing reclaimed plastic wastes from unsanitary landfill site in Kuwait by using a bench scale continuous auger pyrolysis system. The plastic feedstock was characterised. After a simple thermal densification process, the material was fed to the pyrolysis system at 500 °C. The pyro-oil and wax products were collected and characterised. The process mass balance was developed on dry basis, and the yields of pyro-oil, light wax, heavy wax and gases were 5.5, 23.8, 69.4 and 1.3 wt%, respectively. The findings have indicated that the reclamation of plastic waste from landfill was feasible in terms of the product distribution and characteristics. Further liquid analysis confirmed that the liquid products contained fractions that are comparable to petrol and diesel fuels. The wax products are viable and have potential application as coating, covering and lubrication.

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