Research progress of hot gas filtration, desulphurization and HCl removal in coal-derived fuel gas: A review

▸ Research progress of hot gas filtration, desulphurization and HCl removal is highlighted. ▸ Hot gas cleaning has concentrated on developing regenerable sorbents. ▸ Shrinking core model can be applied to H2S and HCl removal by sorbents. ▸ Simultaneous removal of multiple contaminants could be achie...

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Veröffentlicht in:	Chemical engineering research & design 2012-11, Vol.90 (11), p.1901-1917
Hauptverfasser:	Dou, Binlin, Wang, Chao, Chen, Haisheng, Song, Yongchen, Xie, Baozheng, Xu, Yujie, Tan, Chunqing
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Sprache:	eng
Schlagworte:	Alkali metals Applied sciences Ashes Chemical engineering Desulfurizing Desulphurization Exact sciences and technology Filtration Fuels Gasification H2S HCl Hot gas cleaning Hot gas filtration Liquid-liquid and fluid-solid mechanical separations Reactors Sorbents
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container_title	Chemical engineering research & design
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creator	Dou, Binlin Wang, Chao Chen, Haisheng Song, Yongchen Xie, Baozheng Xu, Yujie Tan, Chunqing
description	▸ Research progress of hot gas filtration, desulphurization and HCl removal is highlighted. ▸ Hot gas cleaning has concentrated on developing regenerable sorbents. ▸ Shrinking core model can be applied to H2S and HCl removal by sorbents. ▸ Simultaneous removal of multiple contaminants could be achieved by a combined concept. The present review paper highlighted on the recent progress of hot gas filtration, desulphurization and HCl removal in coal-derived fuel gas for combined cycle power generation (IGCC) or molten carbonate fuel cells (MCFC) technologies. As a critical process in the gasification system, hot gas filtration in the particulate control device (PCD) was introduced with enhanced understanding of equipment and operation, filter element and failsafe material properties, and gasification ash characteristics. The issues associated with the commercialization of hot gas filtration were also addressed, and some novel systems and methods were also discussed. The hot gas desulphurization in coal-derived fuel gas has concentrated on developing regenerable sorbents including the single and composite oxides of Zn, Fe, Cu, Mn and other species, and the reduction of metal oxides in the highly reducing atmosphere followed by vaporization of elements can be a problem for reactivity and regeneration. With regard to the removal of HCl, the studies have indicated sorbents prepared by pelletizing the powders of naturally available alkali metal and alkali earth metal substances can rapidly react with HCl vapor and reduce the HCl vapor concentration to less than 1ppmv, and some sorbents lab-made have very high chlorine capacity. The sorbents based hot gas cleaning also has some challenges. Kinetics studies showed that unreacted shrinking core (USC) can be applied to the modeling of H2S and HCl removal by sorbents at high temperature, and the surface chemical reaction and reactant diffusion by product layers between solid sorbents and gases were very important mechanisms. The paper also proposed and discussed a rational concept for the simultaneous removal of multiple contaminants including ash, H2S and HCl, which will offer a possible cost reduction by two or more processes in a single vessel for hot gas cleaning.
doi_str_mv	10.1016/j.cherd.2012.04.009
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The present review paper highlighted on the recent progress of hot gas filtration, desulphurization and HCl removal in coal-derived fuel gas for combined cycle power generation (IGCC) or molten carbonate fuel cells (MCFC) technologies. As a critical process in the gasification system, hot gas filtration in the particulate control device (PCD) was introduced with enhanced understanding of equipment and operation, filter element and failsafe material properties, and gasification ash characteristics. The issues associated with the commercialization of hot gas filtration were also addressed, and some novel systems and methods were also discussed. The hot gas desulphurization in coal-derived fuel gas has concentrated on developing regenerable sorbents including the single and composite oxides of Zn, Fe, Cu, Mn and other species, and the reduction of metal oxides in the highly reducing atmosphere followed by vaporization of elements can be a problem for reactivity and regeneration. With regard to the removal of HCl, the studies have indicated sorbents prepared by pelletizing the powders of naturally available alkali metal and alkali earth metal substances can rapidly react with HCl vapor and reduce the HCl vapor concentration to less than 1ppmv, and some sorbents lab-made have very high chlorine capacity. The sorbents based hot gas cleaning also has some challenges. Kinetics studies showed that unreacted shrinking core (USC) can be applied to the modeling of H2S and HCl removal by sorbents at high temperature, and the surface chemical reaction and reactant diffusion by product layers between solid sorbents and gases were very important mechanisms. 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subjects	Alkali metals Applied sciences Ashes Chemical engineering Desulfurizing Desulphurization Exact sciences and technology Filtration Fuels Gasification H2S HCl Hot gas cleaning Hot gas filtration Liquid-liquid and fluid-solid mechanical separations Reactors Sorbents
title	Research progress of hot gas filtration, desulphurization and HCl removal in coal-derived fuel gas: A review
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