SURFACE AREA AND PORE SIZE CHANGES DURING SINTERING OF CALCIUM OXIDE PARTICLES
- 1 October 1991
- journal article
- research article
- Published by Taylor & Francis in Chemical Engineering Communications
- Vol. 109 (1) , 73-88
- https://doi.org/10.1080/00986449108910974
Abstract
Changes in surface area and pore size during the sintering of CaO samples between 0·71 to 1 mm, were studied. Typical operating conditions in fluidized bed combustors (temperature between 973 and 1173 K and CO2 concentrations up to 15%) were chosen. The longest sintering time was 90min. The decrease in the surface area with sintering time was described using an empirical equation deduced from the German-Munir model. Surface area reduction and increase in pore size was strongly affected by the presence of CO2. Shrinkage of the CaO particles was not observed during sintering. The pore volume and porosity remain unaffected by sintering. A qualitative model, based on SEM microphotographs, for describing the sintering process was proposed.Keywords
This publication has 14 references indexed in Scilit:
- Calcium oxide sintering in atmospheres containing water and carbon dioxideIndustrial & Engineering Chemistry Research, 1989
- Sintering of nascent calcium oxideChemical Engineering Science, 1989
- Effect of specific surface area on the reactivity of CaO with SO2AIChE Journal, 1986
- Sulphur dioxide reactivity of carbonate rocks: 3. Influence of porosity and purity of sorbentsFuel, 1985
- CO2‐Catalyzed Surface Area and Porosity Changes in High‐Surface‐Area CaO AggregatesJournal of the American Ceramic Society, 1984
- The effect of pore structure on fluid‐solid reactions: Application to the SO2‐lime reactionAIChE Journal, 1981
- Surface Area Reduction During Isothermal SinteringJournal of the American Ceramic Society, 1976
- Reaction of sulfur dioxide with limestone and the grain modelAIChE Journal, 1976
- Properties of carbonate rocks related to sulfur dioxide reactivityEnvironmental Science & Technology, 1972
- Effects of water vapour on sintering of MgOTransactions of the Faraday Society, 1964