Carbon capture, transport, utilization, and storage (CCTUS) technologies are widely
regarded as crucial solutions for mitigating the impacts of climate change. This review paper …

Concerns about climatic changes and global temperature enhancements have sparked
efforts worldwide to curb the magnitude of atmospheric carbon dioxide. A key tactic for …

Faced with increasingly serious energy and global warming, it is critical to put forward an
alternative non-carbonaceous fuel. In this regard, hydrogen appears as the ultimate clean …

The objective of this work was to assess the suitability of a synthetic Cu-based oxygen
carrier in a continuous pilot plant for the production of blue and green hydrogen through the …

Autothermal reactors can sustain the reactor operation without heat addition or removal.
Catalyst is used in autothermal reactors to improve selectivity and minimize energy demand …

The decarbonization of power and fuels production is a crucial element of the energy
transition. Among several available technologies, chemical loo** processes promise to be …

A thorough techno-economic analysis where inherent carbon capture is examined against
state-of-the-art blue hydrogen production configurations for large (100,000 Nm 3/h) and very …

This study optimizes biomass chemical loo** processes (BCLpro), a technique for
converting biomass to energy, through machine learning (ML) for sustainable energy …

Carbon-negative and neutral methods to produce H 2 and other syngas-derived chemicals
are tested and demonstrated in this study through chemical loo** reforming of methane or …

Chemical loo** integrated with reverse water gas (CL-RWGS) shift is presented in this
study using Cu-based oxygen carrier (OC) supported on Al 2 O 3 has been used to convert …