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Year 2022, , 1640 - 1650, 01.12.2022
https://doi.org/10.35378/gujs.839375

Abstract

References

  • [1] Mihoubi, H., Bouderah, B., and Tayebi, T., “Improvement of free convection heat transfer in a concentric cylindrical annulus heat exchanger using nanofluid”, Mathematical Modelling of Engineering Problems, 6(4): 566–574, (2019).
  • [2] Alapati, S., “Simulation of natural convection in a concentric hexagonal annulus using the lattice boltzmann method combined with the smoothed profile method”, Mathematics, 8(6): 1043, (2020).
  • [3] Tayebi, T., Djezzar, M., Bouzerzour, A., Azzouz, K., and Khan, Z.H., “Numerical Simulation of Natural Convection of Water Based Nanofluids in Horizontal Eccentric Cylindrical Annuli”, Journal of Nanofluids, 5(2): 253–263, (2016).
  • [4] Bouzerzour, A., Djezzar, M., Oztop, H.F., Tayebi, T., and Abu-Hamdeh, N., “Natural convection in nanofluid filled and partially heated annulus: Effect of different arrangements of heaters”, Physica A: Statistical Mechanics and its Applications, 538: 122479, (2020).
  • [5] Husain, S., Siddiqui, M.A., and Khan, S.A., “Effect of geometrical parameters on natural convection of water in a narrow annulus”, Progress in Nuclear Energy, 112(2019): 146–161, (2019).
  • [6] Yıldız, Ç., Arıcı, M., Karabay, H., and Bennacer, R., “Natural convection of nanofluid in a U-shaped enclosure emphasizing on the effect of cold rib dimensions”, Journal of Thermal Analysis and Calorimetry, 146: 801–811, (2020).
  • [7] Selimefendigil, F., Oztop, H.F., and Ali, M.E., “Mixed Convection of Hybrid Nanofluids in an Annulus”, Journal of Modeling and Optimization, 10(2): 55, (2018).
  • [8] Seyyedi, S.M., Dayyan, M., Soleimani, S., and Ghasemi, E., “Natural convection heat transfer under constant heat flux wall in a nanofluid filled annulus enclosure”, Ain Shams Engineering Journal, 6(1): 267–280, (2015).
  • [9] Yuan, X., Tavakkoli, F., and Vafai, K., “Analysis of natural convection in horizontal concentric annuli of varying inner shape”, Numerical Heat Transfer; Part A: Applications, 68(11): 1155–1174, (2015).
  • [10] Hameed, A.H., Nawaf, M.Y., “Direct Absorption Process in an Annular Space for Innovative Solar Collector”, Advanced Science Letters, 24(11): 8957–8961, (2018).
  • [11] Silva, B.L.L.D., Souza, M.A.B.B., Medeiros, M.B.O., Rojas, E.E.G., and Castro, J.A., “Rheological Study of Sae 5W30 Engine Oil and Their Emulsions”, Proceedings of the 23rd ABCM International Congress of Mechanical Engineering, (March 2016)(2015).
  • [12] Xu, G., Chen, W., Deng, S., Zhang, X., and Zhao, S., “Performance evaluation of a nanofluid-based direct absorption solar collector with parabolic trough concentrator”, Nanomaterials, 5(4): 2131–2147, (2015).
  • [13] Abu-Nada, E., Masoud, Z., and Hijazi, A., “Natural convection heat transfer enhancement in horizontal concentric annuli using nanofluids”, International Communications in Heat and Mass Transfer, 35(5): 657–665, (2008).

External Heating of a Circular Annulus Cavity filled with Nano Fluid.

Year 2022, , 1640 - 1650, 01.12.2022
https://doi.org/10.35378/gujs.839375

Abstract

Nowadays, progress in direct absorption solar collectors requires further investigations to realize heat transfer occurring in a horizontal annulus cavity exposed to external heat from different angles. An annulus cavity filled with nano-fluid is numerically simulated by using Ansys-Fluent for Rayleigh number equals 105. The external wall of two-dimensional model for the cavity is equally divided into six parts to simulate heating from isothermal walls placed in different angles. The internal wall has constant low temperature simulating a pipe conveys cold fluid and acting as heat sink. Hot isothermal walls set in different angles to simulate several heating cases according to hot element position. “Upper”, “lower”, “upper-right”, “lower-right”, “upper & upper-right”, “lower & lower-right”, “lower-right & upper-right”, “upper-half”, and “lower-half” are the cases investigated to assess heating effectiveness for all possible directions of heating. It is found that heating in “lower” and “lower-right” cases is about six time that of “upper” case. In addition, heating improves slightly in the case of “lower-right” compared with that of “lower” heating. Heating effectiveness from two or three parts in the upper side appears less than heating of two or three parts from the lower side. Enlarging heating area not always reflects multiplication of heat transfer amount, natural convection on the cold wall decreases significantly due to restricted or weakened stream of fluid motion near to cold wall in poor heating cases. In conclusion, choosing correct direction of heating in annulus cavity demonstrates effective heating compared to that earned by enlarging heating area.

References

  • [1] Mihoubi, H., Bouderah, B., and Tayebi, T., “Improvement of free convection heat transfer in a concentric cylindrical annulus heat exchanger using nanofluid”, Mathematical Modelling of Engineering Problems, 6(4): 566–574, (2019).
  • [2] Alapati, S., “Simulation of natural convection in a concentric hexagonal annulus using the lattice boltzmann method combined with the smoothed profile method”, Mathematics, 8(6): 1043, (2020).
  • [3] Tayebi, T., Djezzar, M., Bouzerzour, A., Azzouz, K., and Khan, Z.H., “Numerical Simulation of Natural Convection of Water Based Nanofluids in Horizontal Eccentric Cylindrical Annuli”, Journal of Nanofluids, 5(2): 253–263, (2016).
  • [4] Bouzerzour, A., Djezzar, M., Oztop, H.F., Tayebi, T., and Abu-Hamdeh, N., “Natural convection in nanofluid filled and partially heated annulus: Effect of different arrangements of heaters”, Physica A: Statistical Mechanics and its Applications, 538: 122479, (2020).
  • [5] Husain, S., Siddiqui, M.A., and Khan, S.A., “Effect of geometrical parameters on natural convection of water in a narrow annulus”, Progress in Nuclear Energy, 112(2019): 146–161, (2019).
  • [6] Yıldız, Ç., Arıcı, M., Karabay, H., and Bennacer, R., “Natural convection of nanofluid in a U-shaped enclosure emphasizing on the effect of cold rib dimensions”, Journal of Thermal Analysis and Calorimetry, 146: 801–811, (2020).
  • [7] Selimefendigil, F., Oztop, H.F., and Ali, M.E., “Mixed Convection of Hybrid Nanofluids in an Annulus”, Journal of Modeling and Optimization, 10(2): 55, (2018).
  • [8] Seyyedi, S.M., Dayyan, M., Soleimani, S., and Ghasemi, E., “Natural convection heat transfer under constant heat flux wall in a nanofluid filled annulus enclosure”, Ain Shams Engineering Journal, 6(1): 267–280, (2015).
  • [9] Yuan, X., Tavakkoli, F., and Vafai, K., “Analysis of natural convection in horizontal concentric annuli of varying inner shape”, Numerical Heat Transfer; Part A: Applications, 68(11): 1155–1174, (2015).
  • [10] Hameed, A.H., Nawaf, M.Y., “Direct Absorption Process in an Annular Space for Innovative Solar Collector”, Advanced Science Letters, 24(11): 8957–8961, (2018).
  • [11] Silva, B.L.L.D., Souza, M.A.B.B., Medeiros, M.B.O., Rojas, E.E.G., and Castro, J.A., “Rheological Study of Sae 5W30 Engine Oil and Their Emulsions”, Proceedings of the 23rd ABCM International Congress of Mechanical Engineering, (March 2016)(2015).
  • [12] Xu, G., Chen, W., Deng, S., Zhang, X., and Zhao, S., “Performance evaluation of a nanofluid-based direct absorption solar collector with parabolic trough concentrator”, Nanomaterials, 5(4): 2131–2147, (2015).
  • [13] Abu-Nada, E., Masoud, Z., and Hijazi, A., “Natural convection heat transfer enhancement in horizontal concentric annuli using nanofluids”, International Communications in Heat and Mass Transfer, 35(5): 657–665, (2008).
There are 13 citations in total.

Details

Primary Language English
Subjects Engineering
Journal Section Mechanical Engineering
Authors

Amar Hasan Hameed 0000-0003-0020-1374

Publication Date December 1, 2022
Published in Issue Year 2022

Cite

APA Hameed, A. H. (2022). External Heating of a Circular Annulus Cavity filled with Nano Fluid. Gazi University Journal of Science, 35(4), 1640-1650. https://doi.org/10.35378/gujs.839375
AMA Hameed AH. External Heating of a Circular Annulus Cavity filled with Nano Fluid. Gazi University Journal of Science. December 2022;35(4):1640-1650. doi:10.35378/gujs.839375
Chicago Hameed, Amar Hasan. “External Heating of a Circular Annulus Cavity Filled With Nano Fluid”. Gazi University Journal of Science 35, no. 4 (December 2022): 1640-50. https://doi.org/10.35378/gujs.839375.
EndNote Hameed AH (December 1, 2022) External Heating of a Circular Annulus Cavity filled with Nano Fluid. Gazi University Journal of Science 35 4 1640–1650.
IEEE A. H. Hameed, “External Heating of a Circular Annulus Cavity filled with Nano Fluid”., Gazi University Journal of Science, vol. 35, no. 4, pp. 1640–1650, 2022, doi: 10.35378/gujs.839375.
ISNAD Hameed, Amar Hasan. “External Heating of a Circular Annulus Cavity Filled With Nano Fluid”. Gazi University Journal of Science 35/4 (December 2022), 1640-1650. https://doi.org/10.35378/gujs.839375.
JAMA Hameed AH. External Heating of a Circular Annulus Cavity filled with Nano Fluid. Gazi University Journal of Science. 2022;35:1640–1650.
MLA Hameed, Amar Hasan. “External Heating of a Circular Annulus Cavity Filled With Nano Fluid”. Gazi University Journal of Science, vol. 35, no. 4, 2022, pp. 1640-5, doi:10.35378/gujs.839375.
Vancouver Hameed AH. External Heating of a Circular Annulus Cavity filled with Nano Fluid. Gazi University Journal of Science. 2022;35(4):1640-5.