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Numerical 3-D heat flow simulations on double-pass solar collector with and without porous media

Year 2015, Volume: 1 Issue: 1, 10 - 23, 01.01.2015
https://doi.org/10.18186/jte.86295

Abstract

A transient 3-D mathematical model for double-pass solar collector with porous media in the lower channel has been developed. Numerical simulations model based on setting mass, momentum and energy balances on finite volumes method are carried out. The governing equations inside the two channels, together with the energy equation in the absorber, insulating and glass cover walls were solved iteratively in a segregated manner. Effects of porosity (70-90 %), mass flow (0.03-0.07 kg/s), solar intensity (514-714 W/m2) and spacing glassabsorber-insulation (7-10 cm) on the dynamic and thermal behaviors of the double-pass solar collector with and without porous media have been discussed. The study concluded that the presence of the porous media at the bottom of the absorber is the best configuration and allow increasing the outlet temperature

References

  • K. Sopian, Supranto, W.R.W. Daud, M.Y. Othman, B. Yatim, Thermal performance of the double-pass solar collector with and without porous media, Renewable Energy 18 (1999) 557-564
  • K. Sopian, M.A. Alghoul, Ebrahim M. Alfegi, M.Y. Sulaiman, E.A. Mus, Evaluation of thermal efficiency of double-pass solar collector with porous–nonporous media, Renewable Energy 34 (2009) 640–645
  • P. Naphon, Effect of porous media on the performance of the double-pass flat plate solar air heater, International Communications in Heat and Mass Transfer 32 (2005) 140– 150.
  • C.D. Ho, T.C. Chen, The recycle effect on the collector efficiency improvement of double-pass sheet-and-tube solar water heaters with external recycle, Renewable Energy 31 (2006) 953–970
  • C.D. Ho, T.C. Chen, Collector efficiency improvement of recyclic double-pass sheet-and-tube solar water heaters with internal fins attached, Renewable Energy 33 (2008) 655–664
  • A.A. El-Sebaii, S. Aboul-Enein, M.R.I. Ramadan, E. El- Bialy, Year round performance of double pass solar air heater with packed bed, Energy Conversion and Management 48 (2007) 990–1003.
  • M.R.I. Ramadan, A.A. El-Sebaii_, S. Aboul-Enein, E. El- Bialy, Thermal performance of a packed bed double-pass solar air heater, Energy 32 (2007) 1524–1535
  • B.M. Ramani, Akhilesh Gupta, Ravi Kumar, Performance of a double pass solar air collector, Solar Energy 84 (2010) 1929–1937
  • C.D. Ho, H.M. Yeh, T.C. Chen, Collector efficiency of upward-type double-pass solar air heaters with fins attached, International Communications in Heat and Mass Transfer 38 (2011) 49–56.
  • R. Kumar, M.A. Rosen, Performance evaluation of a double pass PV/T solar air heater with and without fins, Applied Thermal Engineering 31 (2011) 1402-1410
  • S. Chamoli, R. Chauhan, N.S. Thakur, J.S. Saini, A review of the performance of double pass solar air heater, Renewable and Sustainable Energy Reviews 16 (2012) 481– 492
  • J. Hu, X. Sun, J. Xu, Z. Li, Numerical analysis of mechanical ventilation solar air collector with internal baffles, Energy and Buildings 62 (2013) 230–238.
  • A.L. Hernández, J.E. Quiñonez, Analytical models of thermal performance of solar air heaters of double-parallel flow and double-pass counter flow, Renewable Energy 55 (2013) 380-391
  • E.A. Musa, K. Sopian and S. Abdullah, “Transient Analysis for a Double-Pass Solar Collector With and Without Porous Media”, ASME Solar 2002: International Solar Energy Conference Solar Energy Reno, Nevada, USA, June 15–20, 2002
  • D. Peng, Z. Chen, Numerical simulation of phase change heat transfer of a solar flat-plate collector with energy storage, BUILD SIMUL 2 (2009) 273–280
  • C. Xu, Z. Song, L.D. Chen, Y. Zhen, Numerical investigation on porous media heat transfer in a solar tower receiver, Renewable Energy 36 (2011) 1138-1144
  • F. Wang, Y. Shuai, H. Tan, C. Yu, Thermal performance analysis of porous media receiver with concentrated solar irradiation, International Journal of Heat and Mass Transfer 62 (2013) 247–254.
  • W. Chen, W. Liu, Numerical analysis of heat transfer in a passive solar composite wall with porous absorber, Applied Thermal Engineering 28 (2008) 1251–1258
  • J.A. DufŞe, W.A. Beckman, Solar Energy Thermal Process, John Wiley and Sons Inc., 1974

Numerical 3-D heat flow simulations on double-pass solar collector with and without porous media

Year 2015, Volume: 1 Issue: 1, 10 - 23, 01.01.2015
https://doi.org/10.18186/jte.86295

Abstract

References

  • K. Sopian, Supranto, W.R.W. Daud, M.Y. Othman, B. Yatim, Thermal performance of the double-pass solar collector with and without porous media, Renewable Energy 18 (1999) 557-564
  • K. Sopian, M.A. Alghoul, Ebrahim M. Alfegi, M.Y. Sulaiman, E.A. Mus, Evaluation of thermal efficiency of double-pass solar collector with porous–nonporous media, Renewable Energy 34 (2009) 640–645
  • P. Naphon, Effect of porous media on the performance of the double-pass flat plate solar air heater, International Communications in Heat and Mass Transfer 32 (2005) 140– 150.
  • C.D. Ho, T.C. Chen, The recycle effect on the collector efficiency improvement of double-pass sheet-and-tube solar water heaters with external recycle, Renewable Energy 31 (2006) 953–970
  • C.D. Ho, T.C. Chen, Collector efficiency improvement of recyclic double-pass sheet-and-tube solar water heaters with internal fins attached, Renewable Energy 33 (2008) 655–664
  • A.A. El-Sebaii, S. Aboul-Enein, M.R.I. Ramadan, E. El- Bialy, Year round performance of double pass solar air heater with packed bed, Energy Conversion and Management 48 (2007) 990–1003.
  • M.R.I. Ramadan, A.A. El-Sebaii_, S. Aboul-Enein, E. El- Bialy, Thermal performance of a packed bed double-pass solar air heater, Energy 32 (2007) 1524–1535
  • B.M. Ramani, Akhilesh Gupta, Ravi Kumar, Performance of a double pass solar air collector, Solar Energy 84 (2010) 1929–1937
  • C.D. Ho, H.M. Yeh, T.C. Chen, Collector efficiency of upward-type double-pass solar air heaters with fins attached, International Communications in Heat and Mass Transfer 38 (2011) 49–56.
  • R. Kumar, M.A. Rosen, Performance evaluation of a double pass PV/T solar air heater with and without fins, Applied Thermal Engineering 31 (2011) 1402-1410
  • S. Chamoli, R. Chauhan, N.S. Thakur, J.S. Saini, A review of the performance of double pass solar air heater, Renewable and Sustainable Energy Reviews 16 (2012) 481– 492
  • J. Hu, X. Sun, J. Xu, Z. Li, Numerical analysis of mechanical ventilation solar air collector with internal baffles, Energy and Buildings 62 (2013) 230–238.
  • A.L. Hernández, J.E. Quiñonez, Analytical models of thermal performance of solar air heaters of double-parallel flow and double-pass counter flow, Renewable Energy 55 (2013) 380-391
  • E.A. Musa, K. Sopian and S. Abdullah, “Transient Analysis for a Double-Pass Solar Collector With and Without Porous Media”, ASME Solar 2002: International Solar Energy Conference Solar Energy Reno, Nevada, USA, June 15–20, 2002
  • D. Peng, Z. Chen, Numerical simulation of phase change heat transfer of a solar flat-plate collector with energy storage, BUILD SIMUL 2 (2009) 273–280
  • C. Xu, Z. Song, L.D. Chen, Y. Zhen, Numerical investigation on porous media heat transfer in a solar tower receiver, Renewable Energy 36 (2011) 1138-1144
  • F. Wang, Y. Shuai, H. Tan, C. Yu, Thermal performance analysis of porous media receiver with concentrated solar irradiation, International Journal of Heat and Mass Transfer 62 (2013) 247–254.
  • W. Chen, W. Liu, Numerical analysis of heat transfer in a passive solar composite wall with porous absorber, Applied Thermal Engineering 28 (2008) 1251–1258
  • J.A. DufŞe, W.A. Beckman, Solar Energy Thermal Process, John Wiley and Sons Inc., 1974
There are 19 citations in total.

Details

Primary Language English
Journal Section Articles
Authors

Abdel İllah Nabil Korti This is me

Publication Date January 1, 2015
Submission Date May 14, 2015
Published in Issue Year 2015 Volume: 1 Issue: 1

Cite

APA Korti, A. İ. N. (2015). Numerical 3-D heat flow simulations on double-pass solar collector with and without porous media. Journal of Thermal Engineering, 1(1), 10-23. https://doi.org/10.18186/jte.86295
AMA Korti AİN. Numerical 3-D heat flow simulations on double-pass solar collector with and without porous media. Journal of Thermal Engineering. January 2015;1(1):10-23. doi:10.18186/jte.86295
Chicago Korti, Abdel İllah Nabil. “Numerical 3-D Heat Flow Simulations on Double-Pass Solar Collector With and Without Porous Media”. Journal of Thermal Engineering 1, no. 1 (January 2015): 10-23. https://doi.org/10.18186/jte.86295.
EndNote Korti AİN (January 1, 2015) Numerical 3-D heat flow simulations on double-pass solar collector with and without porous media. Journal of Thermal Engineering 1 1 10–23.
IEEE A. İ. N. Korti, “Numerical 3-D heat flow simulations on double-pass solar collector with and without porous media”, Journal of Thermal Engineering, vol. 1, no. 1, pp. 10–23, 2015, doi: 10.18186/jte.86295.
ISNAD Korti, Abdel İllah Nabil. “Numerical 3-D Heat Flow Simulations on Double-Pass Solar Collector With and Without Porous Media”. Journal of Thermal Engineering 1/1 (January 2015), 10-23. https://doi.org/10.18186/jte.86295.
JAMA Korti AİN. Numerical 3-D heat flow simulations on double-pass solar collector with and without porous media. Journal of Thermal Engineering. 2015;1:10–23.
MLA Korti, Abdel İllah Nabil. “Numerical 3-D Heat Flow Simulations on Double-Pass Solar Collector With and Without Porous Media”. Journal of Thermal Engineering, vol. 1, no. 1, 2015, pp. 10-23, doi:10.18186/jte.86295.
Vancouver Korti AİN. Numerical 3-D heat flow simulations on double-pass solar collector with and without porous media. Journal of Thermal Engineering. 2015;1(1):10-23.

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