Add to ORKGThe main focus of this paper is to report a mechanism, a rate-limiting step, and a rate law consistent with experimental observation for the decomposition of methane to hydrogen and carbon nanotube over Ni/Mn based catalyst
In this work methane was decomposed to hydrogen and carbon to determine its kinetic behavior during ...
A number of catalysts prepared from transition metals such as copper (Cu), iron (Fe), nickel (Ni), c...
We report the simultaneous production of hydrogen fuel and carbon nanotubes (CNTs) via methane dehyd...
The main focus of this paper is to report a mechanism, a rate-limiting step, and a rate law consiste...
<p><strong>MICRO KINETICS OF DECOMPOSITION OF METHANE TO CARBON NANOTUBES OVER NI-CU-AL CATALYST.</s...
Among all hydrocarbons, the methane molecule contains the highest amount of hydrogen with respect to...
Experiments were conducted in a fixed-bed catalytic reactor to study the decomposition of methane to...
Abstract: Carbon nanotubes (CNTs) are tubular carbon molecules with superior mechanical, chemical, o...
ThermoCatalytic Decomposition of methane (TCD) offers an interesting route to convert natural gas in...
Dihydrogen (H-2), commonly named "hydrogen", is attracting research interest due to potential applic...
Micro fluidized bed (MFB) reactor offers a good way to determine the intrinsic kinetics of some reac...
Hydrogen is widely considered to be one of the most promising alternative energy carriers and clean ...
Hydrogen is an alternative source of renewable energy that can be produced by methane decomposition ...
ABSTRACT Methane catalytic decomposition (MCD) over Ni/MCM-41 catalysts was tested in a microreactor...
2 Hydrogen production from catalytic methane decomposition (DeCH4) is a simple process to produce hi...
In this work methane was decomposed to hydrogen and carbon to determine its kinetic behavior during ...
A number of catalysts prepared from transition metals such as copper (Cu), iron (Fe), nickel (Ni), c...
We report the simultaneous production of hydrogen fuel and carbon nanotubes (CNTs) via methane dehyd...
The main focus of this paper is to report a mechanism, a rate-limiting step, and a rate law consiste...
<p><strong>MICRO KINETICS OF DECOMPOSITION OF METHANE TO CARBON NANOTUBES OVER NI-CU-AL CATALYST.</s...
Among all hydrocarbons, the methane molecule contains the highest amount of hydrogen with respect to...
Experiments were conducted in a fixed-bed catalytic reactor to study the decomposition of methane to...
Abstract: Carbon nanotubes (CNTs) are tubular carbon molecules with superior mechanical, chemical, o...
ThermoCatalytic Decomposition of methane (TCD) offers an interesting route to convert natural gas in...
Dihydrogen (H-2), commonly named "hydrogen", is attracting research interest due to potential applic...
Micro fluidized bed (MFB) reactor offers a good way to determine the intrinsic kinetics of some reac...
Hydrogen is widely considered to be one of the most promising alternative energy carriers and clean ...
Hydrogen is an alternative source of renewable energy that can be produced by methane decomposition ...
ABSTRACT Methane catalytic decomposition (MCD) over Ni/MCM-41 catalysts was tested in a microreactor...
2 Hydrogen production from catalytic methane decomposition (DeCH4) is a simple process to produce hi...
In this work methane was decomposed to hydrogen and carbon to determine its kinetic behavior during ...
A number of catalysts prepared from transition metals such as copper (Cu), iron (Fe), nickel (Ni), c...
We report the simultaneous production of hydrogen fuel and carbon nanotubes (CNTs) via methane dehyd...