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Original Articles

Comparison Between Combustion Behavior of Solid Fuels and Their Chars Under Oxy-Fuel Conditions

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Pages 398-408 | Received 15 May 2013, Accepted 19 Nov 2013, Published online: 23 Apr 2014

REFERENCES

  • Arenillas, A., Rubiera, F., Arias, B., Pis, J.J., Faúndez, J.M., Gordon, A.L., and García, X.A. 2004. A TG/DTA study on the effect of coal blending on ignition behavior. J. Therm. Anal. Calorim., 76, 603–614.
  • Borman, G.L., and Ragland, K.W. 1998. Combustion Engineering, McGraw-Hill, New York.
  • Borrego, A.G., Alvarez, D., Fernandez-Domingues, I., Ballesteros, J.C., and Menendez, R. 2007a. Low volatile coal combustion under oxy-fuel atmosphere. In Proceedings of the International Conference on Coal Science and Technology, Nottingham, UK; IEA Clean Coal Centre, London, pp. 28–31.
  • Borrego, A.G., and Alvarez, D. 2007b. Comparison of chars obtained under oxy-fuel and conventional pulverized coal combustion atmospheres. Energy Fuels, 21, 3171–3179.
  • Brix, J., Jensen, P.A., and Jensen, A.D. 2010. Coal devolatilization and char conversion under suspension fired conditions in O2/N2 and O2/CO2 atmospheres. Fuel, 89, 3373–3380.
  • Buhre, B.J.P., Elliott, L.K., Sheng, C.D., Gupta, R.P., and Wall, T.F. 2005. Oxy-fuel combustion technology for coal-fired power generation. Prog. Energy Combust. Sci., 31, 283–307.
  • Czakiert, T., and Nowak, W. 2009. Kinetics of coal char combustion under oxygen-enhanced conditions. In Proceedings of the 4th European Combustion Meeting, Vienna, Austria, F. Winter, Ed., pp. 618–623.
  • Edreis, E.M.A., Luo, G., Li, A., Chao, C., Hua, H., Zhang, S., Gui, B., Xiao, L., Xu, K., Zhang, P., and Yao, H. 2013. CO2 co-gasification of lower sulphur petroleum coke and sugar cane bagasse via TG–FTIR analysis technique. Bioresource Technol., 136, 595–603.
  • Gil, M.V., Riaza, J., Álvarez, L., Pevida, C., Pis, J.J., and Rubiera, F. 2012. Oxy-fuel combustion kinetics and morphology of coal chars obtained in N2 and CO2 atmospheres in an entrained flow reactor. Appl. Energy, 91, 67–74.
  • He, R., Sato, J., Chen, Q., and Chen, C. 2002. Thermogravimetric analysis of char combustion. Combust. Sci. Technol., 174, 1–18.
  • Hillier, J., Bezzant, T., and Fletcher, T.H. 2010. Improved method for the determination of kinetic parameters from non-isothermal thermogravimetric analysis (TGA) data. Energy Fuels, 24, 2841–2847.
  • Jia, L., Tan, Y., and Anthony, E.J. 2010. Emissions of SO2 and NOx during oxy-fuel CFB combustion tests in a mini-circulating fluidized bed combustion reactor. Energy Fuels, 124, 910–915.
  • Kok, M.V. 2002. An investigation into the thermal behavior of coals. Energy Sources, 24, 899–905.
  • Kok, M.V. 2003. Coal pyrolysis: Thermogravimetric study and kinetic analysis. Energy Sources, 25, 1007–1014.
  • Li, Q., Zhao, C., Chen, X., Wu, W., and Lin, B. 2010. Properties of char particles obtained under O2/N2 and O2/CO2 combustion environments. Chem. Eng. Process., 49, 449–459.
  • Li, X., Rathnam, R.K., Yu, J., Wang, Q., Wall, T., and Meesri, C. 2010. Pyrolysis and combustion characteristics of an Indonesian low-rank coal under O2/N2 and O2/CO2 conditions. Energy Fuels, 24, 160–164.
  • Liu, H. 2009a. Combustion of coal chars in O2/CO2 and O2/N2 mixtures: A comparative study with non-isothermal thermogravimetric analyzer (TGA) tests. Energy Fuels, 23, 4278–4285.
  • Liu, H. 2009b. A comparison of combustion of coal chars in O2/CO2 and O2/N2 mixtures—isothermal TGA studies. Int. J. Chem. React. Eng., 7, Article A74.
  • Liu, Y., Wang, C., and Che, D. 2012. Ignition and kinetics analysis of coal combustion in low oxygen concentration. Energy Sources, 34, 810–819.
  • Morgan, P.A., Robertson, S.D., and Unsworth, J.F. 1986. Combustion studies by thermogravimetric analysis. 1: Coal oxidation. Fuel, 65, 1546–1551.
  • Murphy, J.J., and Shaddix, C.R. 2006. Combustion kinetics of coal chars in oxygen-enriched environments. Combust. Flame, 144, 710–729.
  • Niu, S., Han, K., and Lu, C. 2011. Characteristic of coal combustion in oxygen/carbon dioxide atmosphere and nitric oxide release during this process. Energy Convers. Manage., 52, 532–537.
  • Pohlmann, J.G., Osorio, E., Vilela, A.C.F., and Borrego, A.G. 2010. Reactivity to CO2 of chars prepared in O2/N2 and O2/CO2 mixtures for pulverized coal injection (PCI) in blast furnace in relation to char petrographic characteristics. Int. J. Coal Geol., 84, 293–300.
  • Rathnam, R.K., Elliott, L.K., Wall, T.F., Liu, Y., and Moghtaderi, B. 2009. Differences in reactivity of pulverised coal in air (O2/N2) and oxy-fuel (O2/CO2) conditions. Fuel Process. Technol., 90, 797–802.
  • Saastamoinen, J., and Tourunen, A. 2012. Model for char combustion, particle size distribution, and inventory in air and oxy-fuel combustion in fluidized beds. Energy Fuels, 26, 407–416.
  • Selçuk, N., and Yuzbasi, N.S. 2011. Combustion behavior of Turkish lignite in O2/N2 and O2/CO2 mixtures by using TGA-FTIR. J. Anal. Appl. Pyrolysis, 90, 133–139.
  • Senior, C.L., Lignell, D.O., Chen, Z., Sarofim, A.F., and Dixon, T.W. 2005. Characterization of reactivity of green and calcined petroleum coke with oxygen for application to combustion systems. In Proceedings of Light Metals, H. Kvande, Ed., TMS—The Minerals, Metals and Materials Society, Warrendal, PA, pp. 597–600.
  • Sima-Ella, E., Yuan, G., and Mays, T. 2005. A simple kinetic analysis to determine the intrinsic reactivity of coal chars. Fuel, 84, 1920–1925.
  • Su, S., Pohl, J.H., Holcombe, D., and Hart, J.A. 2001. Techniques to determine ignition, flame stability and burnout of blended coals in p.f. power station boilers. Prog. Energy Combust. Sci., 27, 75–98.
  • Toftegaard, M.B., Brix, J., Jensen, P.A., Glarborg P, and Jensen AD. 2010. Oxy-fuel combustion of solid fuels. Prog. Energy Combust. Sci., 36, 581–625.
  • Varhegyi, G., Szabo, P., Jakab, E., and Till, F. 1996. Mathematical modeling of char reactivitiy in Ar-O2 and CO2-O2 mixtures. Energy Fuels, 10, 1208–1214.
  • Wall, T., Liu, Y., Spero, C., Elliott, L., Khare, S., Rathnam, R., Zeenathal, F., Moghtaderi, B., Buhre, B., Sheng, C., Gupta, R., Yamada, T., Makino, K., and Yu, J. 2009. An overview on oxyfuel coal combustion-State of the art research and technology development. Chem. Eng. Res. Des., 87, 1003–1016.
  • Wang, C., Zhang, X., Liu, Y., and Che, D. 2012. Pyrolysis and combustion characteristics of coals in oxyfuel combustion. Appl. Energy, 97, 264–273.
  • Yoon, S.J., Choi, Y.C., Lee, S.H., and Lee, J.G. 2007. Thermogravimetric study of coal and petroleum coke for co-gasification. Korean J. Chem. Eng., 24, 512–517.
  • Yuzbasi, N.S., and Selçuk, N. 2012a. Air and oxy-fuel combustion behavior of petcoke/lignite blends. Fuel, 92, 137–144.
  • Yuzbasi, N.S., and Selçuk, N. 2012b. Pyrolysis and combustion behavior of ternary fuel blends in air and oxy-fuel conditions by using TGA-FTIR. Combust. Sci. Technol., 184, 1152–1163.

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