Add to ORKGIn this project, a stainless ste el micro - structured reactor built by a company for the hydrogen production by methane steam reforming i s tested. A nickel based catalyst is prepared through the “incipient wetness technique” and deposited with different methods. The best result is achieved by depositing a pre - formed intermediate layer of alumina on the chromium oxide layer. The reac tor’s performance is compared with a cordierite monolithic reactor filled with the same catalyst t o observe benefits and critical issue. The results obta ined show a production of hydrogen about 20% less than the cordierite reactorIncomin
There are many advantages for hydrogen production from the catalytic methane steam reforming reactio...
Pure hydrogen production from methane is a multi-step process run on a large scale for economic reas...
The Ni/La-Al2O3 catalyst prepared by a coprecipitation method was employed to hydrogen production fr...
International audienceA catalyst based on alumina-supported nickel was synthesized in powder and fil...
This work looks into the effect of Steam to Carbon ratio (S:C) on methane (CH4 ) conversion and hydr...
The industrial methane steam reforming reaction usually employs particulate catalyst that are easy t...
Cu6Zn3Al0.5Ce0.5/HZSM-5 dual-function catalyst was coated on nickel metal foam. The effect of coatin...
Ethanol steam reforming (S/C = 3) was effectively performed at low temperature over catalytic wall r...
Hydrogen is an important raw material in chemical industries, and the steam reforming of light hydro...
The recent increase in the availability of hydrocarbons, especially methane, from shale gas explorat...
Hydrogen production from various hydrocarbon fuels, particularly biomass-derived fuels, has attracte...
This paper addresses the issues related to the rapid production of hydrogen from methane steam refor...
Hydrogen is a zero-carbon energy carrier for the deployment of fuel cell technologies in distributed...
The search for clean alternative energy sources is vital to feed the ever-increasing world energy co...
Experimental results of tests using a micro-structured steam reformer for hydrogen generation from m...
There are many advantages for hydrogen production from the catalytic methane steam reforming reactio...
Pure hydrogen production from methane is a multi-step process run on a large scale for economic reas...
The Ni/La-Al2O3 catalyst prepared by a coprecipitation method was employed to hydrogen production fr...
International audienceA catalyst based on alumina-supported nickel was synthesized in powder and fil...
This work looks into the effect of Steam to Carbon ratio (S:C) on methane (CH4 ) conversion and hydr...
The industrial methane steam reforming reaction usually employs particulate catalyst that are easy t...
Cu6Zn3Al0.5Ce0.5/HZSM-5 dual-function catalyst was coated on nickel metal foam. The effect of coatin...
Ethanol steam reforming (S/C = 3) was effectively performed at low temperature over catalytic wall r...
Hydrogen is an important raw material in chemical industries, and the steam reforming of light hydro...
The recent increase in the availability of hydrocarbons, especially methane, from shale gas explorat...
Hydrogen production from various hydrocarbon fuels, particularly biomass-derived fuels, has attracte...
This paper addresses the issues related to the rapid production of hydrogen from methane steam refor...
Hydrogen is a zero-carbon energy carrier for the deployment of fuel cell technologies in distributed...
The search for clean alternative energy sources is vital to feed the ever-increasing world energy co...
Experimental results of tests using a micro-structured steam reformer for hydrogen generation from m...
There are many advantages for hydrogen production from the catalytic methane steam reforming reactio...
Pure hydrogen production from methane is a multi-step process run on a large scale for economic reas...
The Ni/La-Al2O3 catalyst prepared by a coprecipitation method was employed to hydrogen production fr...