Add to ORKGHydrogen is a very promising source of fuel; it has already constituted a significant part of modern innovations for power generation in automobile and space shuttle. Hydrogen can be produced from several sources and as a byproduct of some chemical processes, including the association of magnesium with water. The production yield of this later production method is limited by influences associated with the formation of passive oxide/hydroxide films on the surface of magnesium metal during reaction. The experiments within this project highlight optimization conditions towards improved hydrogen yield via magnesium hydrolysis. Reduced rate of hydroxide layer formation on Mg surface, hence increased production yield, is accomplished by exposing ...
In this paper, the hydrolysis properties for hydrogen generation by Mg-metal chlorides composites in...
The use of reactive mechanical grinding (MG under H2) of magnesium powder improves the hydrogen sorp...
Abstract: Hydrogen generation from MgH2 is of interest to the research community due to various allu...
Hydrogen is a very promising source of fuel; it has already constituted a significant part of modern...
Autonomous low-pressure hydrogen on demand system was found promising to supply fuel cell technology...
Abstract. In this paper, magnesium hydride was used to react with water to produce the hydrogen gas....
Magnesium hydrides are considered as the potential hydrogen storage materials. However, high work te...
Magnesium hydride could be considered as a good candidate for the hydrolysis reaction because it can...
Hydrolysis is an efficient method to generate in-situ H2 from Mg-based waste. In order to produce hy...
Due to its relatively low cost, high hydrogen yield, and environmentally friendly hydrolysis byprodu...
Given the current situation in the energy industry, metal hydrides have captivated many attention fo...
Magnesium hydride (MgH2) is one of the competitive hydrogen storage materials on account of abundant...
The reaction of magnesium hydride with water is a very promising means to generate hydrogen for fuel...
In most of the Mg–Al alloys, Al forms with Mg the intermetallic compound Mg17Al12. In order to under...
This paper focuses on hydrogen production for green mobility applications (other applications are cu...
In this paper, the hydrolysis properties for hydrogen generation by Mg-metal chlorides composites in...
The use of reactive mechanical grinding (MG under H2) of magnesium powder improves the hydrogen sorp...
Abstract: Hydrogen generation from MgH2 is of interest to the research community due to various allu...
Hydrogen is a very promising source of fuel; it has already constituted a significant part of modern...
Autonomous low-pressure hydrogen on demand system was found promising to supply fuel cell technology...
Abstract. In this paper, magnesium hydride was used to react with water to produce the hydrogen gas....
Magnesium hydrides are considered as the potential hydrogen storage materials. However, high work te...
Magnesium hydride could be considered as a good candidate for the hydrolysis reaction because it can...
Hydrolysis is an efficient method to generate in-situ H2 from Mg-based waste. In order to produce hy...
Due to its relatively low cost, high hydrogen yield, and environmentally friendly hydrolysis byprodu...
Given the current situation in the energy industry, metal hydrides have captivated many attention fo...
Magnesium hydride (MgH2) is one of the competitive hydrogen storage materials on account of abundant...
The reaction of magnesium hydride with water is a very promising means to generate hydrogen for fuel...
In most of the Mg–Al alloys, Al forms with Mg the intermetallic compound Mg17Al12. In order to under...
This paper focuses on hydrogen production for green mobility applications (other applications are cu...
In this paper, the hydrolysis properties for hydrogen generation by Mg-metal chlorides composites in...
The use of reactive mechanical grinding (MG under H2) of magnesium powder improves the hydrogen sorp...
Abstract: Hydrogen generation from MgH2 is of interest to the research community due to various allu...