In this case, the furnace was splitting methane into two valuable byproducts: hydrogen gas and solid carbon. This accidental ...

Newark, Jan. 22, 2024 (GLOBE NEWSWIRE) -- The Brainy Insights estimates that the steam methane reforming market will grow from USD 667.19 Million in 2022 to USD 1246.54 Million by 2032. Throughout ...

Generally, when we talk about the production of hydrogen, the discussion is about either electrolysis of water into oxygen and hydrogen, or steam methane reforming (SMR). Although electrolysis is o… ...

Raven SR successfully trials its second stage equilibrium Steam/CO 2 Reformer to produce hydrogen-rich syngas from methane at its Benicia facility in California Non-combustion and catalyst-free ...

Incorporating small amounts of oxidants into methane pyrolysis can significantly enhance carbon and hydrogen production and ...

The Hydrogen Economy could get a boost from this relatively clean way to produce transportation-quality hydrogen. “Typical conversion rates for steam methane reformers are 60%,” says Matt ...

The plastics and fuel production sectors, which use methane reforming to create synthesis gas (syngas) for downstream processes, could dramatically reduce emissions with this new approach.

The steam methane reforming process is split into three phases. First, natural gas reacts with steam, pressure and a catalyst to produce hydrogen, carbon monoxide and a small amount of carbon dioxide.

Because methane itself is the primary input for the process of methane reforming, blue hydrogen producers have to consider direct methane leakage in addition to hydrogen leakage.

This article investigates autothermal reforming (ATR) as a key technology for producing blue hydrogen. It compares it to the incumbent steam-methane reforming (SMR) and highlights the key players, ...