F.S. Lau scite author profile

Coal gasification can generate hydrocarbon gases that may be utilized for the synthesis of chemicals or liquid fuels, or for fuel cell power generation, if extensive, deep syngas cleaning is first conducted. Conventional gas cleaning technology for this duty is expensive and may limit the feasibility of coal usage for such applications. The Siemens Westinghouse Power Corporation has proposed a novel scheme for polishing sulfur, halide, and particulate from gases to meet very stringent cleaning requirements for chemical synthesis, or for fuel cell power generation. This "Ultra-Clean" gas polishing process is a dry process, injecting fine sulfur and halide sorbent particles into two stages of barrier filter-reactors, or granular bed filter-reactors, to accomplished the gas polishing by dry sorbent adsorption of the contaminants. The sorbent materials for each stage, their feed rates, and the two stage temperatures must be specified to satisfy the gas cleaning requirements of any specific application, with the process having the potential for sulfur species less than 60 ppbv, halides less than 10 ppbv, and particulate less than 0.1 ppmw.The Base Program experimental activities described in this report have been completed to identify candidate sorbents and suitable operating conditions for each of the two stages of the Ultra-Clean process. The laboratory process simulation testing has identified a set of zinc-based and sodium-based, -325 mesh sorbents for each of the two stages that yield the performance potential for meeting the most stringent gas cleaning requirements. With these selected sorbents, the Stage I temperature is 499 C (930 F) and the Stage II temperature is 288 C (550 F).Conceptual commercial process evaluation of a novel gas cleaning process that utilizes the Ultra-Clean gas polishing process has been performed to devise potentially viable process details for two applications: a general chemical or liquid fuel synthesis application, and a solid oxide fuel cell power generation application. Commercial process performance and economics have been estimated for this novel gas cleaning process. The results indicate promising performance and economic potential compared to the conventional, Rectisol-based, gas cleaning technology. Sorbent maximum acceptable consumption criteria have been extracted from the commercial process evaluations and show that relatively high, once-through sorbent feed rates can be economically viable in the Ultra-Clean gas polishing process. The process can also incorporate ammonia removal and mercury removal. The next phase of the program will conduct integrated, bench-scale testing of the Ultra-Clean syngas polishing process on a sub-scale coal gasifier.iii

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Conversion of hydrogen sulfide to hydrogen by superadiabatic partial oxidation: thermodynamic consideration

Slimane

Lau

Khinkis

et al. 2004

International Journal of Hydrogen Energy

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In-bed sulphur capture during pressurized fluidized-bed hydroretorting of Eastern oil shales

Abbasian

Rue

Lau

1991

Fuel

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F.S. Lau

Peat beneficiation by wet carbonization

The Hawaiian project

Novel Gas Cleaning/Conditioning for Integrated Gasification Combined Cycle

Conversion of hydrogen sulfide to hydrogen by superadiabatic partial oxidation: thermodynamic consideration

In-bed sulphur capture during pressurized fluidized-bed hydroretorting of Eastern oil shales

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