Calcium looping integrated with chemical looping combustion (CaL-CLC) process is an
efficient and cost-effective CO 2 capture technology. In this technique, the heat generated by …

Integrating in-situ CO 2 removal at high temperature by solid sorbents during sorption-
enhanced steam reforming process for high-purity hydrogen production has been …

The calcium looping (CaL) process is a promising CO2 capture technology, which uses CaO-
based sorbents by employing a reversible reaction between CaO and CO2, generally …

Abstract The combined Ca/Cu looping process is a promising CO 2 capture technology, in
which the exothermic reduction of CuO with reducing gas (eg, CH 4, H 2, or CO) is used in …

Abstract Combined Ca/Cu looping process is a very most promising CO 2 capture
technology, in which chemical looping combustion provides the heat for calcining CaCO 3 in …

Motivated by the double exchange interaction between the adjacent magnetic ions in the
magnetic oxides would lead to the generation of more oxygen vacancy to improve the CO 2 …

Active metal-based materials (AMMs) as CO 2 sorbents or oxygen carriers (OCs) have been
investigated to enhance hydrogen production during various biomass-based chemical …

Hydrogen as a fuel is extremely attractive as it offers the highest calorific value when used
for combustion. However, industrial processes involving the production of H 2 often involve …

Abstract Ca–Cu chemical looping (CaL-CLC), consisting of calcination (regeneration),
carbonation, and oxidation stages, is a novel process with high potential for CO 2 capture. Its …

Abstract An integrated Ca/Cu looping process has been proposed recently for CO 2 capture.
It uses the exothermic in-situ reduction of CuO with methane or natural gas to supply the …