Litcius/Paper detail

Microwave‐Assisted Pyrolysis‐A New Way for the Sustainable Recycling and Upgrading of Plastic and Biomass: A Review

Zhicheng Jiang, Liang Yuan, Fenfen Guo, Yuxuan Wang, Ruikai Li, Aoyi Tang, Youjing Tu, Xingyu Zhang, Junxia Wang, Junxia Wang, Shenggang Li, Shenggang Li, Lingzhao Kong

2024ChemSusChem39 citationsDOI

Abstract

The efficient utilization of organic solid waste resources can help reducing the consumption of conventional fossil fuels, mitigating environmental pollution, and achieving green sustainable development. Due to its dual nature of being both a resource and a source of pollution, it is crucial to implement suitable recycling technologies throughout the recycling and upgrading processes for plastics and biomass, which are organic solid wastes with complex mixture of components. The conventional pyrolysis and hydropyrolysis were summarized for recycling plastics and biomass into high-value fuels, chemicals, and materials. To enhance reaction efficiency and improve product selectivity, microwave-assisted pyrolysis was introduced to the upgrading of plastics and biomass through efficient energy supply especially with the aid of catalysts and microwave absorbers. This review provides a detail summary of microwave-assisted pyrolysis for plastics and biomass from the technical, applied, and mechanistic perspectives. Based on the recent technological advances, the future directions for the development of microwave-assisted pyrolysis technologies are predicted.

Topics & Concepts

PyrolysisBiomass (ecology)Plastic wasteWaste managementEnvironmental scienceBiocharMaterials scienceNanotechnologyEngineeringGeologyOceanographyRecycling and Waste Management TechniquesThermochemical Biomass Conversion ProcessesMicroplastics and Plastic Pollution
Microwave‐Assisted Pyrolysis‐A New Way for the Sustainable Recycling and Upgrading of Plastic and Biomass: A Review | Litcius