Low-carbon hydrogen production by molten metal–catalyzed methane pyrolysis: Catalysts, reactor design, and process development
This review focuses on low-carbon H 2 production via the non-oxidative decomposition of
CH 4. The plasma-based methane decomposition, water splitting, nuclear thermochemical …
CH 4. The plasma-based methane decomposition, water splitting, nuclear thermochemical …
Unlocking the potential of solid carbon: synergistic production with hydrogen from oil and gas resources for innovative applications and a sustainable future
This review examines hydrogen (H 2) production from oil and gas resources and the
concurrent generation of solid carbon, a byproduct often viewed as waste but with significant …
concurrent generation of solid carbon, a byproduct often viewed as waste but with significant …
Comprehensive review on methane pyrolysis for sustainable hydrogen production
The reliance on natural gas as a fossil fuel often overshadows its potential for clean energy
transformation. In contrast with the steam methane reforming (SMR) process, renowned for …
transformation. In contrast with the steam methane reforming (SMR) process, renowned for …
A comprehensive kinetic study on low-GHG hydrogen production from microwave-driven methane pyrolysis
The present study focuses on the cogeneration of hydrogen (H 2) and solid carbon from
microwave-driven methane pyrolysis in a fluidized bed of carbon pellets. Numerical …
microwave-driven methane pyrolysis in a fluidized bed of carbon pellets. Numerical …
[HTML][HTML] Enhancing hydrogen production: Modelling the role of activated carbon catalyst in methane pyrolysis
Hydrogen obtained from natural gas pyrolysis is valuable in transitioning to cleaner energy
sources, as it provides a cost-effective and environmentally sound alternative to other …
sources, as it provides a cost-effective and environmentally sound alternative to other …
Comparative analysis of methane and natural gas pyrolysis for low-GHG hydrogen production
Methane pyrolysis is emerging as an attractive clean hydrogen production method. As its
commercialization proceeds, the pyrolysis of natural gas (NG) becomes pertinent. In this …
commercialization proceeds, the pyrolysis of natural gas (NG) becomes pertinent. In this …
Research advances of molten metal systems for catalytic cracking of methane to hydrogen and carbon
Z Ma, D Zhao, L Dong, J Qian, Y Niu, X Ma - International Journal of …, 2024 - Elsevier
The catalytic cracking of methane represents one of the most promising alternatives for
hydrogen production that avoids the high carbon emissions associated with steam methane …
hydrogen production that avoids the high carbon emissions associated with steam methane …
Study of Co/γ-Al2O3 and Fe/γ-Al2O3 materials for catalytic methane pyrolysis to CO2-free hydrogen
E Pachatouridou, E Zeza, A Lappas… - International Journal of …, 2025 - Elsevier
Abstract Cobalt and iron (5 wt%) supported on γ-alumina catalysts are evaluated for CH 4
pyrolysis reaction. The effect of synthesis method (Wet Impregnation, WI vs. Spray …
pyrolysis reaction. The effect of synthesis method (Wet Impregnation, WI vs. Spray …
Hydrogen Production from Methane Thermal Pyrolysis in a Microwave Heating-Assisted Fluidized Bed Reactor
Methane (CH4) thermal pyrolysis is a promising, carbon dioxide (CO2)-free method for
hydrogen (H2) production, decomposing CH4 into H2 and solid carbon. This highly …
hydrogen (H2) production, decomposing CH4 into H2 and solid carbon. This highly …
Turquoise hydrogen and carbon materials production from thermal methane cracking: An experimental and kinetic modelling study with focus on carbon product …
Methane (CH 4) cracking is emerging as a bridge technology for hydrogen (H 2) production
fostering the transition from current carbon-intensive production processes (eg steam …
fostering the transition from current carbon-intensive production processes (eg steam …