Add to ORKGThe objective of this program is to evaluate the long-term thermal and chemical degradation of inorganic membranes that are developed to separate gases produced by coal combustion and coal gasification. Membrane materials tested include alumina, vycor, platinum foil, and palladium foils. The porosity, permeability, and characterization of physical and chemical changes after exposure to hot gas streams is described
The importance of inorganic membranes for gas separation and purification is analyzed. Although the ...
Catalytic gasification of coal to produce H{sub 2}- and CH{sub 4}-rich gases for consumption in molt...
With global demand for energy increasing alongside public concern over humanity’s potential contribu...
SRI International conducted a theoretical and experimental program to evaluate the long-term thermal...
This report summarizes the results from a research and development program to develop, fabricate, an...
This work addresses potential advancements in integrated gasification combined cycle (IGCC) system, ...
In this work, we investigate the effect of coal power plant exhaust gas on amino-modified mesoporous...
Research continued on hydrogen separation from coal gas. Project objectives are to explore silyation...
Catalytic gasification of coal to produce H2- and CH4-rich gases for consumption in molten carbonat...
Nanostructured gas separation membranes are promising candidates for the separation of CO2 from the ...
Carbon capture and storage or utilization is a key technology to decrease CO2 emissions from convent...
The preparation and performance of membranes for application to hydrogen separation from coal-derive...
The mechanical and thermochemical properties of nano-structured porous SiO$_{2}$-membrane layers wit...
The object of this program was to develop novel and unique membranes for separating acid gases from ...
Membranes used in the separation of gas phase have found a number of important applications. In the ...
The importance of inorganic membranes for gas separation and purification is analyzed. Although the ...
Catalytic gasification of coal to produce H{sub 2}- and CH{sub 4}-rich gases for consumption in molt...
With global demand for energy increasing alongside public concern over humanity’s potential contribu...
SRI International conducted a theoretical and experimental program to evaluate the long-term thermal...
This report summarizes the results from a research and development program to develop, fabricate, an...
This work addresses potential advancements in integrated gasification combined cycle (IGCC) system, ...
In this work, we investigate the effect of coal power plant exhaust gas on amino-modified mesoporous...
Research continued on hydrogen separation from coal gas. Project objectives are to explore silyation...
Catalytic gasification of coal to produce H2- and CH4-rich gases for consumption in molten carbonat...
Nanostructured gas separation membranes are promising candidates for the separation of CO2 from the ...
Carbon capture and storage or utilization is a key technology to decrease CO2 emissions from convent...
The preparation and performance of membranes for application to hydrogen separation from coal-derive...
The mechanical and thermochemical properties of nano-structured porous SiO$_{2}$-membrane layers wit...
The object of this program was to develop novel and unique membranes for separating acid gases from ...
Membranes used in the separation of gas phase have found a number of important applications. In the ...
The importance of inorganic membranes for gas separation and purification is analyzed. Although the ...
Catalytic gasification of coal to produce H{sub 2}- and CH{sub 4}-rich gases for consumption in molt...
With global demand for energy increasing alongside public concern over humanity’s potential contribu...