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HEAT TRANSFER ANALYSIS FOR A TRANSPIRED SOLAR COLLECTOR NUMERICAL MODEL

CROITORU, Cristiana, Dogeanu, d. Angel, Bode, Florin, Meslem, Amina, VARTIRES, Andreea

First published: 2015https://doi.org/10.5593/sgem2015/b41/s19.121View metrics

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  • CrossRef - Citation Indexes: 1
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Publication details

Title
HEAT TRANSFER ANALYSIS FOR A TRANSPIRED SOLAR COLLECTOR NUMERICAL MODEL
Authors
CROITORU, Cristiana, Dogeanu, d. Angel, Bode, Florin, Meslem, Amina, VARTIRES, Andreea
Proceedings
SGEM International Multidisciplinary Scientific GeoConference EXPO Proceedings; 15th International Multidisciplinary Scientific GeoConference SGEM2015, ENERGY AND CLEAN TECHNOLOGIES
Publisher
Stef92 Technology
Year
2015
Pages
939-944
ISSN
1314-2704
ISBN
978-619-7105-38-4
Language
en
Publication type
Conference Paper
References22
  1. IEA. Solar's Untapped Potential. 2005; Available from: http://www.iea- shc.org/solarenergy/potential.htm.

  2. Arulanandam, S.J., K.G.T. Hollands, and E. Brundrett, A CFD heat transfer analysis of the transpired solar collector under no-wind conditions. Solar Energy, 1999. (1–3): p. 93-100.

  3. Van Decker, G.W.E., K.G.T. Hollands, and A.P. Brunger, Heat-exchange relations for unglazed transpired solar collectors with circular holes on a square or triangular pitch. Solar Energy, 2001. 71(1): p. 33-45.

  4. Cordeau, S. and S. Barrington, Performance of unglazed solar ventilation air pre- heaters for broiler barns. Solar Energy, 2011. 85 (7): p. 1418-1429.

  5. Gunnewiek, L.H., K.G.T. Hollands, and E. Brundrett, Effect of wind on flow distribution in unglazed transpired-plate collectors. Solar Energy, 2002. 72 (4): p. 317-325.

  6. Leon, M.A. and S. Kumar, Mathematical modeling and thermal performance analysis of unglazed transpired solar collectors. Solar Energy, 2007. 81(1): p. 62-75.

  7. Belusko, M., W. Saman, and F. Bruno, Performance of jet impingement in unglazed air collectors. Solar Energy, 2008. 82(5): p. 389-398.

  8. Kumar, S. and S.C. Mullick, Wind heat transfer coefficient in solar collectors in outdoor conditions. Solar Energy, 2010. 84(6): p. 956-963.

  9. C.Croitoru, A.M., I.Nastase, O. Martin, . Innovative Solution of Unglazed Transpired Plate Solar Air Heater. in Clima 2013. 2013. Prague.

  10. Jaramillo, J.E., et al., Numerical study of plane and round impinging jets using RANS models. Numer. Heat Transfer Part B 2008. 54: p. 213-237.

  11. Florin BODE, I.N., Cristiana CROITORU, RANS models comparison for a cross-shaped jet flow with straight lobes. Mathematical Modelling in Civil Engineering, 2012. 8(4): p. 14-20. International Multidisciplinary Scientific GeoConfenferences SGEM 2015 www.sgem.org

  12. IEA. Solar's Untapped Potential. 2005; Available from: http://www.iea- shc.org/solarenergy/potential.htm.

  13. Arulanandam, S.J., K.G.T. Hollands, and E. Brundrett, A CFD heat transfer analysis of the transpired solar collector under no-wind conditions. Solar Energy, 1999. (1–3): p. 93-100.

  14. Van Decker, G.W.E., K.G.T. Hollands, and A.P. Brunger, Heat-exchange relations for unglazed transpired solar collectors with circular holes on a square or triangular pitch. Solar Energy, 2001. 71(1): p. 33-45.

  15. Cordeau, S. and S. Barrington, Performance of unglazed solar ventilation air pre- heaters for broiler barns. Solar Energy, 2011. 85 (7): p. 1418-1429.

  16. Gunnewiek, L.H., K.G.T. Hollands, and E. Brundrett, Effect of wind on flow distribution in unglazed transpired-plate collectors. Solar Energy, 2002. 72 (4): p. 317-325.

  17. Leon, M.A. and S. Kumar, Mathematical modeling and thermal performance analysis of unglazed transpired solar collectors. Solar Energy, 2007. 81(1): p. 62-75.

  18. Belusko, M., W. Saman, and F. Bruno, Performance of jet impingement in unglazed air collectors. Solar Energy, 2008. 82(5): p. 389-398.

  19. Kumar, S. and S.C. Mullick, Wind heat transfer coefficient in solar collectors in outdoor conditions. Solar Energy, 2010. 84(6): p. 956-963.

  20. C.Croitoru, A.M., I.Nastase, O. Martin, . Innovative Solution of Unglazed Transpired Plate Solar Air Heater. in Clima 2013. 2013. Prague.

  21. Jaramillo, J.E., et al., Numerical study of plane and round impinging jets using RANS models. Numer. Heat Transfer Part B 2008. 54: p. 213-237.

  22. Florin BODE, I.N., Cristiana CROITORU, RANS models comparison for a cross-shaped jet flow with straight lobes. Mathematical Modelling in Civil Engineering, 2012. 8(4): p. 14-20. International Multidisciplinary Scientific GeoConfenferences SGEM 2015 www.sgem.org

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Number of times cited according to Crossref: 1

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