The excessive emission of CO 2 causes severe environmental problems. Sustainable CO 2
management based on carbon capture and utilization plays important role in addressing …

The capture or utilization of CO 2 from industrial sources (ie, fossil-fueled power plants,
cement plants and industrial furnaces) is the priority for achieving carbon reduction. The …

Sorption-enhanced H 2 production using CaO promotes H 2 generation by capturing CO 2
in the form of CaCO 3. Coupling methane reforming of CaCO 3 in sorption-enhanced H 2 …

In this study, high-value conversion of biomass energy was achieved by catalytic pyrolysis of
corn cob in a fixed-bed reaction system to produce hydrogen-rich gas. Specifically, the …

Calcium loo** (CaL) integrated with methane dry reforming (DRM) shows promise for
carbon capture and utilization. To enhance the CaL–DRM tandem processes, a raspberry …

In recent years, there has been a significant surge in the development of carbon dioxide (CO
2) emission reduction technologies aimed at mitigating the excessive release of CO 2 into …

Integrated CO2 capture and utilization (ICCU) can achieve the conversion of captured CO2
into value-added products in a single reactor, enabling it to be one of the fundamental …

As an emerging and promising technology to debate the energy and environment issues
raised by anthropogenic CO 2 emissions, chemical loo** CO 2 capture and in-situ …

Calcium-loo** is an attractive approach for removing CO 2 in flue gas from the coal-fired
power plant to form CaCO 3. The integration of CO 2 capture via calcium-loo** and in-situ …

The development and utilization of bifunctional catalysts facilitated hydrogen-rich gas
production from biomass pyrolysis to achieve high-value biomass conversion. The effects of …