Plastic wastesMicrowave-assisted pyrolysisZSM-5 catalysisPlastic fillerWaste to energyEnergy balanceThe soaring use of plastics has resulted in alarming issues such as environmental pollution and unsustainable production of plastics. Pyrolysis of plastic wastes has emerged as a promising chemical recycling ...
Catalytic stepwise pyrolysis of packaging plastic waste. J. Anal. Appl. Pyrolysis 96, 54e62.LOPEZ-URIONABARRENECHEA A,DE MARCO I,CABALLERO B M,et al.Catalytic stepwise pyrolysis ofpackaging plastic waste[J].Journal of analytical andapplied pyrolysis,2012,96:54-62.DOI:10.1016/j.jaap.2012.03.004...
Thermo-catalytic pyrolysis of waste polyethylene bottles in a packed bed reactor with different bed materials and catalysts Plastic waste is an increasing economic and environmental problem as such there is a great need to process this waste and reduce its environmental impact. ......
Catalytic pyrolysis of plastic waste: A review This paper reviews the progress and challenges of Barakat,M.,A.,... - 《Transactions of the Institution of Chemical Engineers Process Safety & Environmental Protection Part B》 被引量: 42发表: 2016年 A case study of the open-loop recycling of ...
High Calorific Value Fuel from Household Plastic Waste by Catalytic Pyrolysis Nature Environment & Pollution TechnologySonawane, Y. B.Shindikar, M. R.Khaladkar, M. Y.
Exploring Thermocatalytic Pyrolysis to Derive Sustainable Chemical Intermediates from Plastic Waste; Role of Temperature, Catalyst, and Reactor Conditions Article 01 April 2024 Introduction Global plastic production has surged over the years, escalating from 1.7 million tons in 1954 to a staggering 400.3...
The pyrolysis of polypropylene (PP) has been carried out in fluidised bed reactor using a zeolite-ZSM-5 catalyst and a Y-zeolite catalyst. The influence of catalyst type and catalyst loading was investigated in relation to the composition of the derived oils and gases. In particular the content...
Direct production of olefins from waste plastic using a pyrolysis and fluid catalytic cracking integrated process: Part 1. study on the production and anal... The ultimate aim of this research is to produce ethylene and propylene directly from waste plastic. To achieve this, we designed a new ...
Catalytic dry reforming of mixed waste plastics, from a range of different municipal, commercial and industrial sources, were processed in a two-stage fixed bed reactor. Pyrolysis of the plastics took place in the first stage and dry (CO2) reforming of the evolved pyrolysis gases took place in...
(B) Route 1-2: the second sub-type of monomer-, oligomer-, or derivate-mediated routes. The plastic waste B that has the –C–C– linkages such as PE, PP, PVC, and PS can be depolymerized to monomers or oligomers by catalytic pyrolysis or cross alkane metathesis (CAM) process. The...