Biomass pyrolysis has recently gained increasing attention as a thermochemical conversion
process for obtaining value-added products, thanks to the development of cutting-edge …

Carbon dioxide capture and mitigation form a key part of the technological response to
combat climate change and reduce CO2 emissions. Solid materials capable of reversibly …

Biomass gasification represents an effective and promising conversion technology to
different energy carriers/chemicals. Biomass gasification with CO 2 capture will give an …

A residual biochar-based catalyst has been studied for in-line catalytic reforming process
after biomass pyrolysis. Poplar pyrolytic char and Ni/char with different Ni loading were …

Abstract Sorption-enhanced-steam-reforming (SESR) is a thermochemical conversion
technology that produces a high-purity hydrogen stream by utilizing in-situ removal of CO 2 …

Hydrogen is a source of clean energy as it can produce electricity and heat with water as a
by-product and no carbon content is emitted when hydrogen is used as burning fuel in a fuel …

Deployment of fossil fuels to quench the energy demand of the world's rising population
results in elevated levels of greenhouse gas (GHG) emissions, especially CO 2, which in …

This study explored the feasibility of simultaneously producing synthetic gases and metal-
biochar catalyst from co-pyrolysis of microalgae (chlorella vulgaris, CV) and industrial waste …

The inherent alkali and alkaline earth metals (AAEMs) in biomass have a significant impact
on biomass pyrolysis. However, the catalytic effects of water-soluble (WAM), ion-exchanged …

With catalytic pyrolysis gradually becoming the most efficient thermal treatment for biomass,
the search for catalysts with high economic and catalytic performances has attracted …