Nowadays, hydrogen is gaining attention as one of the green energy alternatives within
transition to a zero-emission economy. Increasing demand for hydrogen and its production …

The catalytic oxidative coupling of methane (OCM) to C2 hydrocarbons with oxygen (O2‐
OCM) has garnered renewed worldwide interest in the past decade due to the emergence of …

This study is a comparative analysis of hydrogen production costs in current and potential
future market environments. The economic feasibility of hydrogen production by thermal …

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 …

Hydrogen (H 2) is a promising renewable energy which finds wide applications as the world
gears toward low-carbon economy. However, current H 2 production via steam methane …

Large scale, low cost, and low carbon intensity hydrogen production is needed to reduce
emissions in the energy and transportation sectors. We present a techno-economic analysis …

The present research is centralized on designing and optimizing the preparation conditions
of the NiO (50)/FeAl 2 O 4 catalyst in the thermocatalytic decomposition of CH 4 (TDM). The …

Bubble reactors using molten metal alloys (eg, nickel-bismuth and copper-bismuth) with
strong catalytic activity for methane decomposition are an emerging technology to lower the …

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 …

Industrial-scale implementation of liquid metal bubble reactors (LMBRs) to produce
hydrogen by methane decomposition will require large gas holdups (eg, 20–30 vol%) and …