Task 3.10 - Gas Separation and Hot-Gas Cleanup: Topical report, August 1995
Catalytic gasification of coal to produce H{sub 2}-, CO-, and CH{sub 4}-rich mixtures of gases for consumption in molten carbonate fuel cells is currently under development; however, to optimize the fuel cell performance and extend its operating life, it is desired to separate as much of the inert components (i.e., CO{sub 2} and N{sub 2}) and impurities (i e., H{sub 2}S and NH{sub 3}) as possible from the fuel gas before it enters the fuel cell. In addition, the economics of the integrated gasification combined cycle (IGCC) can be improved by separating as much of the hydrogen as possible from the fuel, since hydrogen is a high-value product. Researchers at the Energy {ampersand} Environmental Research Center (EERC) and Bend Research, Inc., investigated pressure-driven membranes as a method for accomplishing this gas separation and hot- gas cleanup. These membranes are operated at temperatures as high as 800{degrees}C and at pressures up to 300 psig. They have very small pore sizes that separate the undesirable gases by operating in the Knudsen diffusion region of mass transport (30-50 A) or in the molecular sieving region of mass transport phenomena (less than 5A). In addition, H{sub 2} separation through a palladium metal membrane proceeds via a solution- diffusion mechanism for atomic hydrogen. This allows the membranes to exhibit extremely high selectivity for hydrogen separation.
- Research Organization:
- North Dakota Univ., Grand Forks, ND (United States). Energy and Environmental Research Center
- Sponsoring Organization:
- USDOE Assistant Secretary for Fossil Energy, Washington, DC (United States)
- DOE Contract Number:
- FC21-93MC30097
- OSTI ID:
- 619740
- Report Number(s):
- DOE/MC/30097--5674; ON: DE97005403
- Country of Publication:
- United States
- Language:
- English
Similar Records
Gas separation and hot-gas cleanup
Task 6.5 - Gas Separation and Hot-Gas Cleanup