Sun, Tawei2019-10-102019-10-101986http://hdl.handle.net/10919/94471Thermodynamic calculations are used to study the alkali reactions in coal gasifier atmospheres. The reactive alkali and sulfur species released from coal are first calculated at temperatures from 800 K to 1900 K and pressures from 1 atm to 100 atm. Four P-T diagrams are constructed for the stable alkali and/or alkali-sulfur species at differ-ent temperatures and pressures. Alkali vapors are generated by the reactions Na₂CO₃<sub>(s)</sub> + 2C<sub>(s)</sub> = 2Na<sub>(g)</sub> + 3CO<sub>(g)</sub> Na₂CO₃<sub>(s)</sub> + H₂O<sub>(g)</sub> + C<sub>(s)</sub> = 2NaOH<sub>(g)</sub> + 2CO<sub>(g)</sub> or K₂CO₃<sub>(s)</sub> + 2C<sub>(s)</sub> = 2K<sub>(g)</sub> + 3CO<sub>(g)</sub> K₂CO₃<sub>(s)</sub> + H₂O<sub>(g)</sub> + C<sub>(s)</sub> = 2KOH<sub>(g)</sub> + 2CO<sub>(g)</sub> The phases formed from alkali-cement, and alkali-sulfur-cement reaction are also predicted. For both 53% and 72% alumina cement, calcium aluminate (CaO•Al₂O₃) is decomposed by the reactions CaO•Al₂O₃ + 2Na + 1/20₂ = Na₂O•Al₂O₃ + CaO CaO•Al₂O₃ + 2K + 1/20₂ = K₂O•Al₂O₃ + CaO or CaO•Al₂O₃ + 2Na + l/2S₂ = Na₂0•Al₂O₃ + CaS CaO•Al₂O₃ + 2K + 1/2S₂ = K₂•Al₂O₃ + CaSvi, 64 leavesapplication/pdfen-USIn CopyrightLD5655.V855 1986.S96Coal gasificationAlkali attack of coal gasifier refractory liningsThesis