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Transient Simulation of a Flat Plate Solar Powered Adsorption Refrigeration System

Yıl 2012, Cilt: 2 Sayı: 4, 657 - 664, 01.12.2012

Öz

The modeling and simulation of a solar powered adsorption refrigeration system using flat plate solar collector, with activated carbon/methanol as the adsorbent/adsorbate pair has been undertaken in this study.A study of the adsorption bed was carried out to determine the effects of generation, evaporation and condensation temperatures on the performance of the cooling system. This was then used in the optimization of the solar thermal system in the sizing of the collector area and hot water storage tank. A transient simulation of the cooling system with an evaporator temperature of 0oC and condenser temperature of 25oC was subsequently carried out with the TRNSYS 16 software over a period of a typical year.The Flat plate collector system gave average values of refrigeration effect of 4814.83 kJ, solar coefficient of performance (COPs) of 0.024, a cooling coefficient of performance (COP) of 0.608 and a heating efficiency of 0.46. The system was able to achieve a cold room temperature of about 1oC.

Kaynakça

  • E.U. Onochie, “Design and construction of a 100% solar powered vapor absorption refrigerator”. National Solar Energy Forum. 22-25th April 1987, Akoka, Lagos.
  • P. Erhard, K. Spindler and P. Ehahne, “Test and simulation of a solar powered solid sorption cooling machine”. International Journal of Refrigeration, 21(2): 141. 1998
  • G.A. Florides, S.A Kalogirou, S.A. Tassou and L.C. Wrobel, “Modeling and Simulation of an absorption solar cooling system for Cyprus”. Solar Energy, 72: 43-51. A.J. Bula, L.F. Navarro, D.L. Herrera and L.A. Corredor, “Thermodynamic simulation of a Solar Absorption Refrigeration System Generator - Heat Exchanger”. iies.faces.ula.ve/AMSE _Bula.pdf /papers/simulation/MSN V. Mittal, K.S. Kasana and N.S. Thakur, “Modeling and Simulation of a Solar Absorption cooling system for India”. Journal of Energy in Southern Africa, 17(3). 2006
  • O.C. Iloeje, “Design, construction and test run of a solar powered solid absorption refrigerator”. National Annual Solar Energy Forum (NASEF), April 1983, Bida. Niger State, Nigeria.
  • S.O. Enibe and O.C. Ileoje, “Design optimization of the flat plate collector for a solid adsorption solar refrigerator”. Solar Energy, 60(2): 77-87. 1997
  • E.E. Anyanwu and C.I. Ezekwe, “Design, Construction and test run of solid adsorption solar refrigerator using activated carbon/methanol as adsorbent/adsorbate pair”. Energy Conversion and Management, 44(18): 2879-2892.
  • E.E. Anyanwu and N.V. Ogueke, “Thermodynamic design procedure for solid adsorption solar refrigerator”. Renewable Energy, 30(1): 81-96. 2005
  • A. Boubakri, M. Arsalene, B. Yous, L. Ali-Moussa, M. Pons, F. Meunier and J.J. Guillemiot, “Experimental study of adsorptive solar-powered ice-makers in Agadir (Morocco)-2. Influences of Meteorological parameters”. Renewable Energy, 2(1): 15-21. 1992
  • K. Oertal and M. Fischer, “Adsorption cooling system for cold storage using methanol/silicagel”. Applied Thermal Engineering, 18(9):773-786. 1998
  • Z.F. Li and K. Sumathy, “A solar-powered ice- maker with solid adsorption pair of activated carbon and methanol”. International Journal of Energy Research, (6): 517-527. 1999
  • C. Hildebrand, Ph. Dind, M. Pons and F. Buchter, “A new solar powered adsorption refrigerator with high performance”. Solar Energy, 77: 311-318. 2004
  • M. Li and R.Z. Wang, “A study of the effects of collector and environment parameters on the performance of a solar powered solid adsorption refrigerator”. Renewable Energy, 27(3): 369-382. 2002
  • A.P.F. Leite, M.B. Grilo, R.R.D. Andrade, F.A. Belo and F. Meunier, “Experimental data on a Solar- Powered Adsorption Refrigerator for Ice Production using Activated Carbon-Methanol Pair”. ECOS 2004 - th International Conference on Efficiency, Costs,
  • Optimization, Simulation and Environment Impact of Energy and Process Systems. July 7-9, 2004 - Guanajuato, Mexico.
  • M.H. Rahman, A.R. Akhanda and A.K.M. Sadrul Islam, “Study, Design and Fabrication of a Solar Powered Adsorption Refrigeration System”. ISESCO Science and Technology Vision, 2(1): 10-13. 2006
  • S. Waszkiewicz, H. Saidani-Scott and M. Tierney, “Analysis of adsorption Refrigeration System using Zeolite and Methanol”. Heat Powered Cycles Conference, conservatoire national des arts et métiers, Paris. 5-7th September, 2001. N.H.A. Hamdih and “Optimization of Solar Adsorption Refrigeration System
  • Using Experimental and Statistical Techniques”. GCREEDER 2009, Amman-Jordan, 31 March - 2 April M.A. Al-Muhtaseb,
  • H.Z. Hassan, A.A. Mohamad and R. Bennacer, “Simulation of an adsorption solar cooling system”. Energy, 36: 530-537. 2011
  • N.M. Khattab, “Simulation and optimization of a novel solar-powered adsorption refrigeration module”. Solar Energy, 80: 823-833. 2006
  • L.W. Wang, R.Z. Wang, Z.S. Lu, C.J. Chen, K. Wang and J.Y. Wu, “The performance of two adsorption ice making test units using activated carbon and a carbon composite as adsorbents”. Carbon, 44: 2671-2680. 2006
  • F.K. Deaver and E.R.G. Eckert, “An interferometric investigation of convective heat transfer in a horizontal fluid cylinder with wall temperature increasing at a uniform rate”. Proceedings of 4th International Heat Transfer Conference Paper N.C. 1.1. 1970
  • Methanex Corporation. “Technical Information and Safe Handling Guide for Methanol”. Version 3.0, September, 2006
  • R.B.O. Suleiman, “Modeling and simulation of a solar powered adsorption refrigeration system”. Doctoral Thesis, Ahmadu Bello University, Zaria, Nigeria. 2011
Yıl 2012, Cilt: 2 Sayı: 4, 657 - 664, 01.12.2012

Öz

Kaynakça

  • E.U. Onochie, “Design and construction of a 100% solar powered vapor absorption refrigerator”. National Solar Energy Forum. 22-25th April 1987, Akoka, Lagos.
  • P. Erhard, K. Spindler and P. Ehahne, “Test and simulation of a solar powered solid sorption cooling machine”. International Journal of Refrigeration, 21(2): 141. 1998
  • G.A. Florides, S.A Kalogirou, S.A. Tassou and L.C. Wrobel, “Modeling and Simulation of an absorption solar cooling system for Cyprus”. Solar Energy, 72: 43-51. A.J. Bula, L.F. Navarro, D.L. Herrera and L.A. Corredor, “Thermodynamic simulation of a Solar Absorption Refrigeration System Generator - Heat Exchanger”. iies.faces.ula.ve/AMSE _Bula.pdf /papers/simulation/MSN V. Mittal, K.S. Kasana and N.S. Thakur, “Modeling and Simulation of a Solar Absorption cooling system for India”. Journal of Energy in Southern Africa, 17(3). 2006
  • O.C. Iloeje, “Design, construction and test run of a solar powered solid absorption refrigerator”. National Annual Solar Energy Forum (NASEF), April 1983, Bida. Niger State, Nigeria.
  • S.O. Enibe and O.C. Ileoje, “Design optimization of the flat plate collector for a solid adsorption solar refrigerator”. Solar Energy, 60(2): 77-87. 1997
  • E.E. Anyanwu and C.I. Ezekwe, “Design, Construction and test run of solid adsorption solar refrigerator using activated carbon/methanol as adsorbent/adsorbate pair”. Energy Conversion and Management, 44(18): 2879-2892.
  • E.E. Anyanwu and N.V. Ogueke, “Thermodynamic design procedure for solid adsorption solar refrigerator”. Renewable Energy, 30(1): 81-96. 2005
  • A. Boubakri, M. Arsalene, B. Yous, L. Ali-Moussa, M. Pons, F. Meunier and J.J. Guillemiot, “Experimental study of adsorptive solar-powered ice-makers in Agadir (Morocco)-2. Influences of Meteorological parameters”. Renewable Energy, 2(1): 15-21. 1992
  • K. Oertal and M. Fischer, “Adsorption cooling system for cold storage using methanol/silicagel”. Applied Thermal Engineering, 18(9):773-786. 1998
  • Z.F. Li and K. Sumathy, “A solar-powered ice- maker with solid adsorption pair of activated carbon and methanol”. International Journal of Energy Research, (6): 517-527. 1999
  • C. Hildebrand, Ph. Dind, M. Pons and F. Buchter, “A new solar powered adsorption refrigerator with high performance”. Solar Energy, 77: 311-318. 2004
  • M. Li and R.Z. Wang, “A study of the effects of collector and environment parameters on the performance of a solar powered solid adsorption refrigerator”. Renewable Energy, 27(3): 369-382. 2002
  • A.P.F. Leite, M.B. Grilo, R.R.D. Andrade, F.A. Belo and F. Meunier, “Experimental data on a Solar- Powered Adsorption Refrigerator for Ice Production using Activated Carbon-Methanol Pair”. ECOS 2004 - th International Conference on Efficiency, Costs,
  • Optimization, Simulation and Environment Impact of Energy and Process Systems. July 7-9, 2004 - Guanajuato, Mexico.
  • M.H. Rahman, A.R. Akhanda and A.K.M. Sadrul Islam, “Study, Design and Fabrication of a Solar Powered Adsorption Refrigeration System”. ISESCO Science and Technology Vision, 2(1): 10-13. 2006
  • S. Waszkiewicz, H. Saidani-Scott and M. Tierney, “Analysis of adsorption Refrigeration System using Zeolite and Methanol”. Heat Powered Cycles Conference, conservatoire national des arts et métiers, Paris. 5-7th September, 2001. N.H.A. Hamdih and “Optimization of Solar Adsorption Refrigeration System
  • Using Experimental and Statistical Techniques”. GCREEDER 2009, Amman-Jordan, 31 March - 2 April M.A. Al-Muhtaseb,
  • H.Z. Hassan, A.A. Mohamad and R. Bennacer, “Simulation of an adsorption solar cooling system”. Energy, 36: 530-537. 2011
  • N.M. Khattab, “Simulation and optimization of a novel solar-powered adsorption refrigeration module”. Solar Energy, 80: 823-833. 2006
  • L.W. Wang, R.Z. Wang, Z.S. Lu, C.J. Chen, K. Wang and J.Y. Wu, “The performance of two adsorption ice making test units using activated carbon and a carbon composite as adsorbents”. Carbon, 44: 2671-2680. 2006
  • F.K. Deaver and E.R.G. Eckert, “An interferometric investigation of convective heat transfer in a horizontal fluid cylinder with wall temperature increasing at a uniform rate”. Proceedings of 4th International Heat Transfer Conference Paper N.C. 1.1. 1970
  • Methanex Corporation. “Technical Information and Safe Handling Guide for Methanol”. Version 3.0, September, 2006
  • R.B.O. Suleiman, “Modeling and simulation of a solar powered adsorption refrigeration system”. Doctoral Thesis, Ahmadu Bello University, Zaria, Nigeria. 2011
Toplam 23 adet kaynakça vardır.

Ayrıntılar

Birincil Dil İngilizce
Bölüm Articles
Yazarlar

Rekiyat Bgirl Omohu Suleiman Bu kişi benim

Rekiyat Suleiman Bu kişi benim

Clement Folayan Bu kişi benim

Fatai Anafi Bu kişi benim

Dangana Kulla Bu kişi benim

Yayımlanma Tarihi 1 Aralık 2012
Yayımlandığı Sayı Yıl 2012 Cilt: 2 Sayı: 4

Kaynak Göster

APA Suleiman, R. B. O., Suleiman, R., Folayan, C., Anafi, F., vd. (2012). Transient Simulation of a Flat Plate Solar Powered Adsorption Refrigeration System. International Journal Of Renewable Energy Research, 2(4), 657-664.
AMA Suleiman RBO, Suleiman R, Folayan C, Anafi F, Kulla D. Transient Simulation of a Flat Plate Solar Powered Adsorption Refrigeration System. International Journal Of Renewable Energy Research. Aralık 2012;2(4):657-664.
Chicago Suleiman, Rekiyat Bgirl Omohu, Rekiyat Suleiman, Clement Folayan, Fatai Anafi, ve Dangana Kulla. “Transient Simulation of a Flat Plate Solar Powered Adsorption Refrigeration System”. International Journal Of Renewable Energy Research 2, sy. 4 (Aralık 2012): 657-64.
EndNote Suleiman RBO, Suleiman R, Folayan C, Anafi F, Kulla D (01 Aralık 2012) Transient Simulation of a Flat Plate Solar Powered Adsorption Refrigeration System. International Journal Of Renewable Energy Research 2 4 657–664.
IEEE R. B. O. Suleiman, R. Suleiman, C. Folayan, F. Anafi, ve D. Kulla, “Transient Simulation of a Flat Plate Solar Powered Adsorption Refrigeration System”, International Journal Of Renewable Energy Research, c. 2, sy. 4, ss. 657–664, 2012.
ISNAD Suleiman, Rekiyat Bgirl Omohu vd. “Transient Simulation of a Flat Plate Solar Powered Adsorption Refrigeration System”. International Journal Of Renewable Energy Research 2/4 (Aralık 2012), 657-664.
JAMA Suleiman RBO, Suleiman R, Folayan C, Anafi F, Kulla D. Transient Simulation of a Flat Plate Solar Powered Adsorption Refrigeration System. International Journal Of Renewable Energy Research. 2012;2:657–664.
MLA Suleiman, Rekiyat Bgirl Omohu vd. “Transient Simulation of a Flat Plate Solar Powered Adsorption Refrigeration System”. International Journal Of Renewable Energy Research, c. 2, sy. 4, 2012, ss. 657-64.
Vancouver Suleiman RBO, Suleiman R, Folayan C, Anafi F, Kulla D. Transient Simulation of a Flat Plate Solar Powered Adsorption Refrigeration System. International Journal Of Renewable Energy Research. 2012;2(4):657-64.