[1] Wang Chunbo, Liu Hongcai, Chen Liang,. Model of limestone calcination/sulfationunder oxy-fuel fluidized bed combustion [J]. Journal of Southeast University (English Edition), 2015, 31 (2): 238-243. [doi:10.3969/j.issn.1003-7985.2015.02.014]
Copy
Model of limestone calcination/sulfationunder oxy-fuel fluidized bed combustion(
)
)Journal of Southeast University (English Edition)[ISSN:1003-7985/CN:32-1325/N]
- Volumn:
- 31
- Issue:
- 2015 2
- Page:
- 238-243
- Research Field:
- Energy and Power Engineering
- Publishing date:
- 2015-06-20
Info
- Title:
- Model of limestone calcination/sulfationunder oxy-fuel fluidized bed combustion
- Author(s):
- Wang Chunbo; Liu Hongcai; Chen Liang
- School of Energy Power and Mechanical Engineering, North China Electric Power University, Baoding 071003, China
- PACS:
- TK16
- DOI:
- 10.3969/j.issn.1003-7985.2015.02.014
- Abstract:
- The characteristics of the simultaneous calcination/sulfation of limestone under oxy-fuel fluidized bed combustion were studied and compared with those of the sulfation of precalcined CaO. During the calcination stage, SO2 can react with product CaO and slow down the CaCO3 decomposition rate by the covering effect of the CaSO4 product. The sulfation rate of simultaneous calcination/sulfation is slower than that of precalcined CaO, but with a long enough sulfation time, the calcium conversion of simultaneous calcination/sulfation is higher than that of the precalcined CaO. A grain-micrograin model is established to describe the simultaneous calcination, sintering and sulfation of limestone. The grain-micrograin model can reflect the true reaction process of the calcination and sulfation of limestone in oxy-fuel fluidized bed combustion.
References:
[1] Liu H, Okazaki K. Simultaneous easy CO2 recovery and drastic reduction and NOxx in O2/CO2 coal combustion with heat recirculation[J]. Fuel, 2003, 82(11): 1427-1436.
[2] Liu Hao, Ren Ruiqi, Huang Yongjun, et al. Reduction and emission of NO in oxy-fuel system[J]. Journal of Chemical Industry and Engineering, 2011, 62(2): 495-501.(in Chinese)
[3] Duan Lunbo, Zhou Wu, Qu Chengrui, et al. SO2 emission from a coal-fired circulating fluidized bed combustor under O2/CO2 atmosphere[J]. Journal of Engineering Thermophysics, 2012, 33(1): 151-154.
[4] Baker E H. The calcium oxide-carbon dioxide system in the pressure range 1-300 atmopheres[J/OL]. Journal of the Chemical Society (Resumed), 1962:464-470.http://pubs.rsc.org/en/content/articlepdf/1962/jr/jr9620000464.
[5] Wang W Y, Bjerle I. Modeling of high-temperature desulfurization by Ca-based sorbents[J]. Chemical Engineering Science, 1998, 53(11): 1973-1989.
[6] Wang C, Jia L, Tan Y, et al. The effect of water on the sulfation of limestone[J]. Fuel, 2010, 89(9): 2628-2632.
[7] Stewart M C, Manovic V, Anthony E J, et al. Enhancement of indirect sulfation of limestone by steam addition[J]. Environmental Science and Technology, 2010, 44(22): 8781-8786.
[8] García-Labiano F, Rufas A, de Diego L F, et al. Calcium-based sorbents behaviour during sulfation at oxy-fuel fluidised bed combustion conditions[J].Fuel, 2011, 90(10): 3100-3108.
[9] Bhatia S K, Perlmutter D D. A random pore model for fluid-solid reactions: Ⅰ. Isothermal, kinetic control[J]. AIChE Journal, 1980, 26(3):379-386.
[10] Bhatia S K, Perlmutter D D. A random pore model for fluid-solid reactions: Ⅱ. Diffusion and transport effects[J]. AIChE Journal, 1981, 27(2):247-254.
[11] Bhatia S K, Perlmutter D D. The effect of pore structure on fluid-solid reactions: application to the SO2-lime reaction[J]. AIChE Journal 1981, 27(2):226-234.
[12] Szekely J, Evans J W. A structural model for gas-solid reactions with a moving boundary[J]. Chemical Engineering Science, 1970, 25(6):1091-1107.
[13] Hartman M, Coughlin R W. Reaction of sulfur dioxide with limestone and the grain model[J]. AIChE Journal, 1976, 22(3):490-498.
[14] Silcox G D, Kramlich J C. A mathematical model for the flash calcination of dispersed CaCO3 and Ca(OH)2 particles [J]. Industrial Engineering Chemistry Research, 1989, 28(2):155-160.
[15] Milne C R, Silcox G D, Pershing D W, et al. High-temperature, short-time sulfation of calcium-based sorbents. 1. Theoretical sulfation model[J]. Industrial Engineering Chemistry Research, 1990, 29(11): 2192-2201.
[16] Milne C R, Silcox G D, Pershing D W, et al. High-temperature, short-time sulfation of calcium-based sorbents.2. Experimental data and theoretical model predictions[J]. Industrial Engineering Chemistry Research, 1990, 29(11): 2201-2214.
[17] Mahuli S K, Agnihotri R, Jadhav R, et al. Combined calcination, sintering and Sulfation model for CaCO3 SO2 reaction[J]. AIChE Journal, 1999, 45(2): 367-382.
[18] Ghosh-Dastidar A, Mahuli S, Agnihotri R, et al. Ultrafast calcination and sintering of Ca(OH)2 powder:experimental and modeling[J]. Chemical Engineering Science, 1995, 50(13): 2029-2040.
[19] Agnew J, Hampartsoumian E, Jones J M, et al. The simultaneous calcination and sintering of calcium based sorbents under a combustion atmosphere[J]. Fuel, 2000, 79(12): 1515-1523.
[20] Borgwardt R H. Sintering of nascent calcium oxide[J]. Chemical Engineering Science, 1989, 44(1): 53-60.
[21] Lindner B, Simonsson D. Comparison of structural models for gas-solid reactions in porous solids undergoing structural changes[J]. Chemical Engineering Science, 1981, 36(9):1519-1527.
[22] Wang Chunbo, Zhang Yue, Jia Lufei, et al. Effect of water vapor on the pore structure and sulfation of CaO[J]. Fuel, 2014, 130: 60-65.
[23] Wang Chunbo, Wang Jinxing, Lei Ming, et al. Investigations on combustion and NO emission characteristics of coal and biomass blends[J].Energy & Fuel, 2013, 27(10): 6185-6190.
Memo
- Memo:
-
Biography: Wang Chunbo(1973—), male, doctor, professor, hdwchb@126.com.
Foundation items: The National Natural Science Foundation of China(No.51276064), the Natural Science Foundation of Hebei Province(No.E2013502292).
Citation: Wang Chunbo, Liu Hongcai, Chen Liang. Model of limestone calcination/sulfation under oxy-fuel fluidized bed combustion[J].Journal of Southeast University(English Edition), 2015, 31(2):238-243.[doi:10.3969/j.issn.1003-7985.2015.02.014]