Integrated biomass catalytic pyrolysis with multi-source waste collaborative treatment: A mini-review

Abstract

Biomass, a renewable carbon-containing resource, offers a promising avenue for the efficient production of green energy, chemicals, and carbon materials through catalytic pyrolysis. However, current limitations include low conversion efficiency and product selectivity towards the target products. Currently, industrial agglomeration zones are increasingly challenged by the need for sustainable and centralized multi-source waste disposal. Consequently, creating an integrated system comprising biomass catalytic pyrolysis and multi-source waste treatment for treating complex waste mixtures offers a significant opportunity to advance the innovation of biomass catalytic pyrolysis technology and facilitate the establishment of waste-free industrial agglomeration parks. This review examines the latest aspects of biomass characteristics, catalytic pyrolysis mechanisms, integration with diverse waste streams (agricultural production process waste, petrochemical industry waste, alumina industrial waste, and biological refining industry waste), and applications of catalytic pyrolysis products. Based on the above analysis of scientific literature, an integrated zero-waste industrial agglomeration areas model combining biomass catalytic pyrolysis with collaborative treatment of multiple waste sources to generate renewable energy and achieve sustainable waste management was proposed. To guide future research, it also outlines the emerging trends in the integrated technology of biomass catalytic pyrolysis and multi-source waste treatment. This review can provide scientific support and reference for establishing efficient multi-source waste treatment strategies integrated with biomass catalytic pyrolysis technology.