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A LIME PRODUCTION OF THE FLUIDIZED BED BOILER’S ENERGY AND EXERGY ANALYSE

Year 2017, , 1271 - 1274, 01.07.2017
https://doi.org/10.18186/journal-of-thermal-engineering.323393

Abstract

In this study, it was calculated energy and exergy analysis of a lime production for the fluidized bed boiler by a
case of sugar factory. The aim of this study is to show calculation of the energy and exergy analysis of a lime
production for the fluidized bed boiler, and to determine a lime mass quantity for the factory process. This factory
is a sugar factory that has got many heat processes for the sugar raw filtration and defection. The production of
lime mass was found 1.2973 [kg/s]. The production of lime (CaO) energy result was found 4121.92 [kW] and
exergy result was found 2766.97 [kW]. Energy (CaO) quality was found 0.671.

References

  • [1] A. S. Gutierrez, J. B. C. Martinez, C. Vandecasteele, Energy and exergy assessments of a lime shaft kiln, Applied Thermal Engineering 51 (2013) 273-280.
  • [2] S. Moazzem, M.G. Rasul, M.M.K. Khan, Energy recovery opportunities from mineral carbonation process in coal fired power plant, Applied Thermal Engineering, 51 (2013) 281-291.
  • [3] A. S. Gutierrez, C. Vandecasteele, Exergy-based indicators to evaluate the possibilities to reduce fuel consumption in lime production, Energy 36 (2011) 2820-2827.
  • [4] T. Taner, Food industry energy efficiency and energy management: the case of sugar factory [dissertation] Gazi University, Ankara (2013).
  • [5] T. Taner, M. Sivrioglu, Energy-exergy analysis and optimisation of a model sugar factory in Turkey, Energy, 93 (2015) 641-654.
  • [6] M. Büyükgüner, Experimental investigation of limestone-SO2 reactivity in a circulating fluidized bed [dissertation], Gazi University, Ankara (2005).
  • [7] T.J. Kotas, The exergy method of thermal plant analysis, Reprint edition , 0-89464-946-9 Krieger Publishing, Florida (1995)
  • [8] E. A. Pina, R. Palacios-Bereche, M. F. Chavez-Rodriguez, A. V. Ensinas, M. Modesto, S. A. Nebra, Reduction of process steam demand and water-usage through heat integration in sugar and ethanol production from sugarcane-Evaluation of different plant configurations, Energy, (2015) 1-18 (In Press).
  • [9] Y. Casas, J. Dewulf, L. E. Arteaga-Péreza, M. Moralesa, H. Van Langenhovec, E. Rosa, Integration of Solid Oxide Fuel Cell in a sugar–ethanol factory: analysis of the efficiency and the environmental profile of the products, Journal of Cleaner Production 19, (2011) 13: 1395-1404.
  • [10] N. Maravic, F. Kiss, L. Seres, B. Bogdanovic, B. Bogdanovic, Z. Sere, Economic analysis and LCA of an advanced industrial-scale raw sugar juice purification procedure, Food and Bioproducts Processing, 95 (2015) 19– 26.
  • [11] S. Gul, M. Harasek, Energy saving in sugar manufacturing through the integration of environmental friendly new membrane processes for thin juice pre-concentration, Applied Thermal Engineering 43 (2012) 128-133.
  • [12] A. V. Ensinas, S. A. Nebra, M. A. Lozano, L. M. Serra, Analysis of process steam demand reduction and electricity generation in sugar and ethanol production from sugarcane, Energy Conversion and Management 48 (2007) 2978–2987.
  • [13] A.V. Ensinas, M. Modesto, S.A. Nebra, L. Serra, Reduction of irreversibility generation in sugar and ethanol production from sugarcane, Energy 34 (2009) 680– 688.
  • [14] M. O. de Souza Dias, R. B. Filho, P. E. Mantelatto, O. Cavalett, C. E. Vaz Rossell, A. Bonomi, M. R. L. V. Leal, Sugarcane processing for ethanol and sugar in Brazil, Environmental Development 15 (2015) 35-51. H. Mhemdi, O. Bals, E. Vorobiev, Combined pressing-diffusion technology for sugar beets pretreated by pulsed electric field, Journal of Food Engineering 168 (2016) 166–172.
Year 2017, , 1271 - 1274, 01.07.2017
https://doi.org/10.18186/journal-of-thermal-engineering.323393

Abstract

References

  • [1] A. S. Gutierrez, J. B. C. Martinez, C. Vandecasteele, Energy and exergy assessments of a lime shaft kiln, Applied Thermal Engineering 51 (2013) 273-280.
  • [2] S. Moazzem, M.G. Rasul, M.M.K. Khan, Energy recovery opportunities from mineral carbonation process in coal fired power plant, Applied Thermal Engineering, 51 (2013) 281-291.
  • [3] A. S. Gutierrez, C. Vandecasteele, Exergy-based indicators to evaluate the possibilities to reduce fuel consumption in lime production, Energy 36 (2011) 2820-2827.
  • [4] T. Taner, Food industry energy efficiency and energy management: the case of sugar factory [dissertation] Gazi University, Ankara (2013).
  • [5] T. Taner, M. Sivrioglu, Energy-exergy analysis and optimisation of a model sugar factory in Turkey, Energy, 93 (2015) 641-654.
  • [6] M. Büyükgüner, Experimental investigation of limestone-SO2 reactivity in a circulating fluidized bed [dissertation], Gazi University, Ankara (2005).
  • [7] T.J. Kotas, The exergy method of thermal plant analysis, Reprint edition , 0-89464-946-9 Krieger Publishing, Florida (1995)
  • [8] E. A. Pina, R. Palacios-Bereche, M. F. Chavez-Rodriguez, A. V. Ensinas, M. Modesto, S. A. Nebra, Reduction of process steam demand and water-usage through heat integration in sugar and ethanol production from sugarcane-Evaluation of different plant configurations, Energy, (2015) 1-18 (In Press).
  • [9] Y. Casas, J. Dewulf, L. E. Arteaga-Péreza, M. Moralesa, H. Van Langenhovec, E. Rosa, Integration of Solid Oxide Fuel Cell in a sugar–ethanol factory: analysis of the efficiency and the environmental profile of the products, Journal of Cleaner Production 19, (2011) 13: 1395-1404.
  • [10] N. Maravic, F. Kiss, L. Seres, B. Bogdanovic, B. Bogdanovic, Z. Sere, Economic analysis and LCA of an advanced industrial-scale raw sugar juice purification procedure, Food and Bioproducts Processing, 95 (2015) 19– 26.
  • [11] S. Gul, M. Harasek, Energy saving in sugar manufacturing through the integration of environmental friendly new membrane processes for thin juice pre-concentration, Applied Thermal Engineering 43 (2012) 128-133.
  • [12] A. V. Ensinas, S. A. Nebra, M. A. Lozano, L. M. Serra, Analysis of process steam demand reduction and electricity generation in sugar and ethanol production from sugarcane, Energy Conversion and Management 48 (2007) 2978–2987.
  • [13] A.V. Ensinas, M. Modesto, S.A. Nebra, L. Serra, Reduction of irreversibility generation in sugar and ethanol production from sugarcane, Energy 34 (2009) 680– 688.
  • [14] M. O. de Souza Dias, R. B. Filho, P. E. Mantelatto, O. Cavalett, C. E. Vaz Rossell, A. Bonomi, M. R. L. V. Leal, Sugarcane processing for ethanol and sugar in Brazil, Environmental Development 15 (2015) 35-51. H. Mhemdi, O. Bals, E. Vorobiev, Combined pressing-diffusion technology for sugar beets pretreated by pulsed electric field, Journal of Food Engineering 168 (2016) 166–172.
There are 14 citations in total.

Details

Subjects Engineering
Journal Section Articles
Authors

Tolga Taner

Publication Date July 1, 2017
Submission Date June 23, 2017
Published in Issue Year 2017

Cite

APA Taner, T. (2017). A LIME PRODUCTION OF THE FLUIDIZED BED BOILER’S ENERGY AND EXERGY ANALYSE. Journal of Thermal Engineering, 3(3), 1271-1274. https://doi.org/10.18186/journal-of-thermal-engineering.323393
AMA Taner T. A LIME PRODUCTION OF THE FLUIDIZED BED BOILER’S ENERGY AND EXERGY ANALYSE. Journal of Thermal Engineering. July 2017;3(3):1271-1274. doi:10.18186/journal-of-thermal-engineering.323393
Chicago Taner, Tolga. “A LIME PRODUCTION OF THE FLUIDIZED BED BOILER’S ENERGY AND EXERGY ANALYSE”. Journal of Thermal Engineering 3, no. 3 (July 2017): 1271-74. https://doi.org/10.18186/journal-of-thermal-engineering.323393.
EndNote Taner T (July 1, 2017) A LIME PRODUCTION OF THE FLUIDIZED BED BOILER’S ENERGY AND EXERGY ANALYSE. Journal of Thermal Engineering 3 3 1271–1274.
IEEE T. Taner, “A LIME PRODUCTION OF THE FLUIDIZED BED BOILER’S ENERGY AND EXERGY ANALYSE”, Journal of Thermal Engineering, vol. 3, no. 3, pp. 1271–1274, 2017, doi: 10.18186/journal-of-thermal-engineering.323393.
ISNAD Taner, Tolga. “A LIME PRODUCTION OF THE FLUIDIZED BED BOILER’S ENERGY AND EXERGY ANALYSE”. Journal of Thermal Engineering 3/3 (July 2017), 1271-1274. https://doi.org/10.18186/journal-of-thermal-engineering.323393.
JAMA Taner T. A LIME PRODUCTION OF THE FLUIDIZED BED BOILER’S ENERGY AND EXERGY ANALYSE. Journal of Thermal Engineering. 2017;3:1271–1274.
MLA Taner, Tolga. “A LIME PRODUCTION OF THE FLUIDIZED BED BOILER’S ENERGY AND EXERGY ANALYSE”. Journal of Thermal Engineering, vol. 3, no. 3, 2017, pp. 1271-4, doi:10.18186/journal-of-thermal-engineering.323393.
Vancouver Taner T. A LIME PRODUCTION OF THE FLUIDIZED BED BOILER’S ENERGY AND EXERGY ANALYSE. Journal of Thermal Engineering. 2017;3(3):1271-4.

IMPORTANT NOTE: JOURNAL SUBMISSION LINK http://eds.yildiz.edu.tr/journal-of-thermal-engineering