Add to ORKGAbstract The hydrogen economy will play a key role in future energy systems. Several thermal and catalytic methods for hydrogen production have been presented. In this review, methane thermocatalytic and thermal decomposition into hydrogen gas and solid carbon are considered. These processes, known as the thermal decomposition of methane (TDM) and thermocatalytic decomposition (TCD) of methane, respectively, appear to have the greatest potential for hydrogen production. In particular, the focus is on the different types and properties of carbons formed during the decomposition processes. The applications for carbons are also investigated
The large reserves of natural gas could serve as a feedstock for the production of an alternative fu...
The main objective of this project is the development of an economically viable thermocatalytic proc...
The ever-increasing global demand for energy and functional materials, coupled with the growing thre...
The hydrogen economy will play a key role in future energy systems. Several thermal and catalytic me...
The main goal of this project is the development of an economically viable process for production of...
Consumption of fossil fuels, especially in transport and energy-dependent sectors, has led to large ...
Conventional processes of hydrogen production are among major producers of CO2 emissions. It has bee...
Currently, most of the industrial hydrogen production is based on steam methane reforming process th...
Currently, most of the industrial hydrogen production is based on steam methane reforming process th...
Currently, most of the industrial hydrogen production is based on steam methane reforming process th...
The transition to the hydrogen economy has been proposed as a sustainable solution for the simultane...
Thermocatalytic decomposition of methane (TCD) is a fully green single step technology for producing...
Beside steam reforming, methane pyrolysis is an alternative method for hydrogen production. ‘Turquoi...
2 Hydrogen production from catalytic methane decomposition (DeCH4) is a simple process to produce hi...
This study presents thermal decomposition of methane, laden with two activated charcoal samples, nam...
The large reserves of natural gas could serve as a feedstock for the production of an alternative fu...
The main objective of this project is the development of an economically viable thermocatalytic proc...
The ever-increasing global demand for energy and functional materials, coupled with the growing thre...
The hydrogen economy will play a key role in future energy systems. Several thermal and catalytic me...
The main goal of this project is the development of an economically viable process for production of...
Consumption of fossil fuels, especially in transport and energy-dependent sectors, has led to large ...
Conventional processes of hydrogen production are among major producers of CO2 emissions. It has bee...
Currently, most of the industrial hydrogen production is based on steam methane reforming process th...
Currently, most of the industrial hydrogen production is based on steam methane reforming process th...
Currently, most of the industrial hydrogen production is based on steam methane reforming process th...
The transition to the hydrogen economy has been proposed as a sustainable solution for the simultane...
Thermocatalytic decomposition of methane (TCD) is a fully green single step technology for producing...
Beside steam reforming, methane pyrolysis is an alternative method for hydrogen production. ‘Turquoi...
2 Hydrogen production from catalytic methane decomposition (DeCH4) is a simple process to produce hi...
This study presents thermal decomposition of methane, laden with two activated charcoal samples, nam...
The large reserves of natural gas could serve as a feedstock for the production of an alternative fu...
The main objective of this project is the development of an economically viable thermocatalytic proc...
The ever-increasing global demand for energy and functional materials, coupled with the growing thre...