In order to satisfy the increasing need for renewable chemicals and fuels, it is important to
replace petroleum-based products with alternative feedstocks. Lignocellulosic biomass is …

The thermochemical conversion of biomass is a promising technology due to its cost-
effectiveness and feedstock flexibility, with pyrolysis being a particularly noteworthy method …

Co-pyrolysis of biomass feedstocks with polymeric wastes is a promising strategy for
improving the quantity and quality parameters of the resulting liquid fuel. Numerous …

Global energy consumption has increased as a result of a growing population and
industrialization, leading to a number of complications such as fossil fuel exhaustion …

It is urgent to promote the technology development of plastic waste (PW) valorization to
mitigate the present serious plastic pollution. Pyrolysis has been widely used to convert PW …

This work represents the first attempt to analyze kinetics, thermodynamics and reaction
mechanism of olive pomace (OP) and waste plastic materials (PM) co-pyrolysis. Among PM …

The high percentage of branched units with different structures leads to the complex
pyrolysis chemistry and product distribution of hemicellulose. In this study, four main …

Co-gasification of biomass and waste plastic to produce syngas and value-added products
is an attractive technology for renewable energy utilization and waste disposal. CO 2 as a …

Biomass and polymer catalytic co-pyrolysis can convert waste into higher-quality fuels,
thereby reducing the use of fossil fuels to some extent. However, this process is an …

Artificial intelligence (AI) has great potential in promoting sustainable plastic waste recycling
and management. This review explores the integration of AI in plastic waste recycling and …