Reactions of Calcium  and Magnesium Materials in High-Temperature Desulfurization of Flue and Fuel Gases

M. Hartman; O. Trnka; K. Svoboda; V. Vesely

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M. Hartman Institute of Chemical Process Fundamentals, Academy of Sciences of the Czech Republic, Prague
O. Trnka Institute of Chemical Process Fundamentals, Academy of Sciences of the Czech Republic, Prague
K. Svoboda Institute of Chemical Process Fundamentals, Academy of Sciences of the Czech Republic, Prague
V. Vesely Institute of Chemical Process Fundamentals, Academy of Sciences of the Czech Republic, Prague

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Basic aspects are investigated of the use of limestone and dolomite in removing SO₂ from flue gas and H₂S from coal gas at high temperatures. While CaO is capable of removing essentially all SO₂ from the flue gas, this is not the case for removal of H₂S with CaO from coal gas because of equilibrium constraints under practical conditions. MgO is effective in sorbing SO₂ at much lower temperatures than CaO. Unlike CaS, CaSO₄ has a large molar volume and, consequently, a strong interparticle diffusion resistance develops very quickly in the course of sorption. As a result, the initially fast reaction rapidly slows down and only incomplete conversions of CaO to CaSO₄ are attained. The sulfidation reaction of CaO is also rapid but, in contrast to sulfation, high conversions to CaS can be obtained. In contrast to CaS, CaSO₄ is a stable and quite inert compound. The solid formed in the sulfidation must be stabilized before disposing, usually by oxidizing to CaSO₄, or regenerated. Neither of these processes is straightforward.

Reactions of Calcium and Magnesium Materials in High-Temperature Desulfurization of Flue and Fuel Gases

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