Experimental study of forced and free convective heat transfer in the thermal entry region of horizontal concentric annuli
Forced and free convective heat transfer for thermally developing and thermally fully developed laminar air flow inside horizontal concentric annuli in the thermal entrance length has been experimentally investigated. The experimental setup consists of a stainless steel annulus having a radius ratio...
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my.uniten.dspace-306952023-12-29T15:51:28Z Experimental study of forced and free convective heat transfer in the thermal entry region of horizontal concentric annuli Mohammed H.A. Campo A. Saidur R. 15837504600 23157654000 6602374364 Forced free convection Horizontal annulus Thermal entry length problem Forced convection Natural convection Nusselt number Pipe flow Reynolds number Stainless steel Tubes (components) Vehicular tunnels Axial distance Combined convection Concentric annuli Constant wall heat flux Convective heat transfer Dimensionless variables Empirical correlations Entry length Entry region Experimental setup Experimental studies Free convections Heated lengths Horizontal annulus Inner tubes Laminar airflow Local Nusselt number Long tubes Radius ratio Re numbers Short tube Surface temperature distribution Thermal entrance Heat exchangers Forced and free convective heat transfer for thermally developing and thermally fully developed laminar air flow inside horizontal concentric annuli in the thermal entrance length has been experimentally investigated. The experimental setup consists of a stainless steel annulus having a radius ratio of 2 and an inner tube with a heated length of 900mm subjected to a constant wall heat flux boundary condition and an adiabatic outer annulus. The investigation covers Reynolds number range from 200 to 1000, the Grashof number was ranged from 6.2�105 to 1.2�107. The entrance sections used were long tube with length of 2520mm (L/Dh=63) and short tube with length of 504mm (L/Dh=12.6). The surface temperature distribution along the inner tube surface, and the local Nusselt number distribution versus dimensionless axial distance Zt were presented and discussed. It is inferred that the free convection effects tended to decrease the heat transfer at low Re number while to increase the heat transfer for high Re number. This investigation reveals that the Nusselt number values were considerably greater than the corresponding values for fully developed combined convection over a significant portion of the annulus. The average heat transfer results were correlated in terms of the relevant dimensionless variables with an empirical correlation. The local Nusselt number results were compared with available literature and show similar trend and satisfactory agreement. � 2010. Final 2023-12-29T07:51:28Z 2023-12-29T07:51:28Z 2010 Article 10.1016/j.icheatmasstransfer.2010.04.007 2-s2.0-77955268114 https://www.scopus.com/inward/record.uri?eid=2-s2.0-77955268114&doi=10.1016%2fj.icheatmasstransfer.2010.04.007&partnerID=40&md5=5ae8ec44ce430ea2de25ecdbea5ca805 https://irepository.uniten.edu.my/handle/123456789/30695 37 7 739 747 Scopus |
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Forced free convection Horizontal annulus Thermal entry length problem Forced convection Natural convection Nusselt number Pipe flow Reynolds number Stainless steel Tubes (components) Vehicular tunnels Axial distance Combined convection Concentric annuli Constant wall heat flux Convective heat transfer Dimensionless variables Empirical correlations Entry length Entry region Experimental setup Experimental studies Free convections Heated lengths Horizontal annulus Inner tubes Laminar airflow Local Nusselt number Long tubes Radius ratio Re numbers Short tube Surface temperature distribution Thermal entrance Heat exchangers |
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Forced free convection Horizontal annulus Thermal entry length problem Forced convection Natural convection Nusselt number Pipe flow Reynolds number Stainless steel Tubes (components) Vehicular tunnels Axial distance Combined convection Concentric annuli Constant wall heat flux Convective heat transfer Dimensionless variables Empirical correlations Entry length Entry region Experimental setup Experimental studies Free convections Heated lengths Horizontal annulus Inner tubes Laminar airflow Local Nusselt number Long tubes Radius ratio Re numbers Short tube Surface temperature distribution Thermal entrance Heat exchangers Mohammed H.A. Campo A. Saidur R. Experimental study of forced and free convective heat transfer in the thermal entry region of horizontal concentric annuli |
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Forced and free convective heat transfer for thermally developing and thermally fully developed laminar air flow inside horizontal concentric annuli in the thermal entrance length has been experimentally investigated. The experimental setup consists of a stainless steel annulus having a radius ratio of 2 and an inner tube with a heated length of 900mm subjected to a constant wall heat flux boundary condition and an adiabatic outer annulus. The investigation covers Reynolds number range from 200 to 1000, the Grashof number was ranged from 6.2�105 to 1.2�107. The entrance sections used were long tube with length of 2520mm (L/Dh=63) and short tube with length of 504mm (L/Dh=12.6). The surface temperature distribution along the inner tube surface, and the local Nusselt number distribution versus dimensionless axial distance Zt were presented and discussed. It is inferred that the free convection effects tended to decrease the heat transfer at low Re number while to increase the heat transfer for high Re number. This investigation reveals that the Nusselt number values were considerably greater than the corresponding values for fully developed combined convection over a significant portion of the annulus. The average heat transfer results were correlated in terms of the relevant dimensionless variables with an empirical correlation. The local Nusselt number results were compared with available literature and show similar trend and satisfactory agreement. � 2010. |
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15837504600 |
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15837504600 Mohammed H.A. Campo A. Saidur R. |
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Article |
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Mohammed H.A. Campo A. Saidur R. |
| author_sort |
Mohammed H.A. |
| title |
Experimental study of forced and free convective heat transfer in the thermal entry region of horizontal concentric annuli |
| title_short |
Experimental study of forced and free convective heat transfer in the thermal entry region of horizontal concentric annuli |
| title_full |
Experimental study of forced and free convective heat transfer in the thermal entry region of horizontal concentric annuli |
| title_fullStr |
Experimental study of forced and free convective heat transfer in the thermal entry region of horizontal concentric annuli |
| title_full_unstemmed |
Experimental study of forced and free convective heat transfer in the thermal entry region of horizontal concentric annuli |
| title_sort |
experimental study of forced and free convective heat transfer in the thermal entry region of horizontal concentric annuli |
| publishDate |
2023 |
| _version_ |
1806428512565854208 |
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13.214268 |