Journal ArticleDOI
Plastics to fuel: a review
TLDR
In this article, a review of the catalytic processes of converting waste plactics into fuels is presented, highlighting the remarkable achievements of this field and the milestones that need to be achieved in the future.Abstract:
The thermal and catalytic processes of converting waste plactics into fuels are promising techniques to eliminate the refuse which otherwise is harmful to the enivironment, and decrease the dependence on fossil fuels. Thermal degradation decomposes plastic into three fractions: gas, crude oil, and solid residue. Crude oil from non-catalytic pyrolysis is usually composed of higher boiling point hydrocarbons. The optimization of conversion parameters such as the choice of catalyst, reactor design, pyrolysis temperature, and plastic-to-catalyst ratio plays a very important role in the efficient generation of gasoline and diesel grade fuel. The use of a catalyst for thermal conversion lowers the energy required for conversion, and the catalyst choice is important for efficient fuel production. The suitable selection of catalysts can increase the yield of crude oil with lower hydrocarbon content. Co-pyrolysis of plastics with coal or shale oil improves crude oil quality by decreasing its viscosity. A large number of publications have appeared on various processes, and continued improvements and/or innovations are expected in the future. Further investigations on the catalytic systems are required in order to advance the field, particularly to enhance the added value of fuels and to minimize the use of energy. This review aims to provide both the highlights of the remarkable achievements of this field and the milestones that need to be achieved in the future.read more
Citations
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Journal ArticleDOI
A review on thermal and catalytic pyrolysis of plastic solid waste (PSW)
TL;DR: The existing techniques of pyrolysis, the parameters which affect the products yield and selectivity and the influence of different catalysts on the process are presented and major research gaps in this technology are identified.
Journal ArticleDOI
Thermochemical routes for the valorization of waste polyolefinic plastics to produce fuels and chemicals. A review
TL;DR: In this paper, the main thermochemical routes for the valorization of waste polyolefins to produce chemicals and fuels are analyzed for the purpose of producing more sustainable waste management policies.
Journal ArticleDOI
Recent advances in the gasification of waste plastics. A critical overview
TL;DR: In this article, a review of the main waste plastics valorization routes to produce syngas and H2 is presented, covering different gasification strategies and other novel alternative processes, such as pyrolysis and in-line catalytic steam reforming.
Journal ArticleDOI
Catalytic co-pyrolysis of lignocellulosic biomass with polymers: a critical review
TL;DR: In this paper, a review of the catalytic co-pyrolysis process from several points of view is presented, starting from feedstock characteristics and availability, current understanding of the chemistry in non-catalytic co pyrolyse, and focusing on the chemistry of the co-polymerization of Lignocellulosic biomass with various categories of polymers.
Journal ArticleDOI
Recent developments in lignocellulosic biomass catalytic fast pyrolysis: Strategies for the optimization of bio-oil quality and yield
Xu Chen,Qingfeng Che,Shujuan Li,Zihao Liu,Haiping Yang,Yingquan Chen,Xianhua Wang,Jingai Shao,Hanping Chen +8 more
TL;DR: In this paper, a review of catalytic fast pyrolysis (CFP) is presented, focusing on the latest improvements to the design of advanced catalysts and novel CFP processes.
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