Syngas production through dry reforming: A review on catalysts and their materials, preparation methods and reactor type
Z Alipour, VB Borugadda, H Wang, AK Dalai - Chemical Engineering …, 2023 - Elsevier
Dry reforming of light hydrocarbons such as methane has gained interest due to the
consumption of greenhouse gases like methane and CO 2 and production of syngas (H 2 …
consumption of greenhouse gases like methane and CO 2 and production of syngas (H 2 …
A review of recent developments in hydrogen production via biogas dry reforming
Biogas is a promising renewable energy resource. Among the existing biogas utilization
technologies, dry reforming can convert two major greenhouse gases in biogas, methane …
technologies, dry reforming can convert two major greenhouse gases in biogas, methane …
Bi-functional CeO2 coated NiCo-MgAl core-shell catalyst with high activity and resistance to coke and H2S poisoning in methane dry reforming
A bi-functional core-shell catalyst is reported for CO 2 reforming of methane, that combines
high catalytic activity with resistance to both coke formation and deactivation by H 2 S …
high catalytic activity with resistance to both coke formation and deactivation by H 2 S …
Mo promoting Ni-based catalysts confined by halloysite nanotubes for dry reforming of methane: Insight of coking and H2S poisoning resistance
Dry reforming of methane (DRM) shows promise for converting greenhouse gases into
syngas but developing stable Ni-based catalysts resistant to sintering, coking, and H 2 S …
syngas but developing stable Ni-based catalysts resistant to sintering, coking, and H 2 S …
Overview of hydrogen production from biogas reforming: Technological advancement
In this article, possibilities of biogas reforming techniques for hydrogen production are
discussed. The consideration of biogas reforming to produce H 2 and fuel cell application …
discussed. The consideration of biogas reforming to produce H 2 and fuel cell application …
Upgrading biogas into syngas through dry reforming
Biogas is comprised of two major compounds (ie, CH 4 and CO 2) derived from fermentation
of organic wastes. Therefore, biogas can be used as a source for the generation of syngas …
of organic wastes. Therefore, biogas can be used as a source for the generation of syngas …
[HTML][HTML] CO2 capture and in-situ conversion: recent progresses and perspectives
B Shao, Y Zhang, Z Sun, J Li, Z Gao, Z Xie, J Hu… - Green Chemical …, 2022 - Elsevier
Global warming caused by excess carbon dioxide (CO 2) emission has been a focus of the
world. The development of neutral carbon technologies becomes a strategic choice for the …
world. The development of neutral carbon technologies becomes a strategic choice for the …
Methane reforming in solid oxide fuel cells: Challenges and strategies
Methane, mainly derived from fossil fuels, coal and natural gas, is a widely used industrial
resource for hydrogen production via the reforming process. However, due to their …
resource for hydrogen production via the reforming process. However, due to their …
On the enhanced sulfur and coking tolerance of Ni-Co-rare earth oxide catalysts for the dry reforming of methane
Sulfur and coking tolerance of Ni-based dry reforming catalysts were examined. Catalysts
utilizing both Ce/Zr and Ce/La oxide supports, some with additional Co, were tested. Long …
utilizing both Ce/Zr and Ce/La oxide supports, some with additional Co, were tested. Long …
[HTML][HTML] CeO2-Based Heterogeneous Catalysts in Dry Reforming Methane and Steam Reforming Methane: A Short Review
Transitioning to lower carbon energy and environment sustainability requires a reduction in
greenhouse gases such as carbon dioxide (CO2) and methane (CH4) that contribute to …
greenhouse gases such as carbon dioxide (CO2) and methane (CH4) that contribute to …