This review aims to give a detailed knowledge of the selection and fabrication methods of
oxygen carrier (OC) materials for the Chemical Loo** Combustion (CLC) reporting up to …

This work comprehensively reviews the recent advances for chemical-loo** reforming of
CH 4 (CLR) technology, which breaks down the traditional CH 4 reforming process …

This work is a comprehensive review of the Chemical-Loo** Combustion (CLC) and
Chemical-Loo** Reforming (CLR) processes reporting the main advances in these …

This review reports recent advances on chemical-loo** combustion (CLC). CLC is a
promising technology for fossil fuel combustion preventing CO2 dilution with flue gases …

Chemical‐loo** technology provides a versatile platform to convert methane in a clean
and efficient manner, achieving CO2 capture and generation of syngas/pure H2 without …

Abstract Highly loaded Ni-Al 2 O 3 catalysts (14–88 wt.-% Ni) were prepared by dry
impregnation, wet impregnation, deposition precipitation and coprecipitation and tested in …

Combining chemical loo** with a traditional fuel conversion process yields a promising
technology for low-CO2-emission energy production. Bridged by the cyclic transformation of …

The kinetics of reduction with CH4, H2 and CO and oxidation with O2 of two NiO-based
oxygen-carriers for chemical-loo** combustion (CLC) and chemical-loo** reforming …

Efficient and environmentally friendly conversion of methane into syngas is a topic of
practical relevance for the production of hydrogen, chemicals, and synthetic fuels. At …

Chemical-loo** combustion (CLC) is a promising method for the combustion of fuel gas
with CO2 capture and sequestration (CCS). This paper presents the methane combustion …