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Détail de l'auteur
Auteur Jibing Lan
Documents disponibles écrits par cet auteur
Affiner la rechercheFlow and heat transfer in microchannels with dimples and protrusions / Jibing Lan in Journal of heat transfer, Vol. 134 N° 2 (Fevrier 2012)
[article]
in Journal of heat transfer > Vol. 134 N° 2 (Fevrier 2012) . - 09 p.
Titre : Flow and heat transfer in microchannels with dimples and protrusions Type de document : texte imprimé Auteurs : Jibing Lan, Auteur ; Yonghui Xie, Auteur ; Di Zhang, Auteur Année de publication : 2012 Article en page(s) : 09 p. Note générale : Heat transfer Langues : Anglais (eng) Mots-clés : Computational fluid dynamics Heat transfer Laminar flow Microchannel flow Navier-Stokes equations Numerical analysis Index. décimale : 536 Chaleur. Thermodynamique Résumé : Flow characteristics and heat transfer performances in a rectangular microchannel with dimples/protrusions are studied numerically in this research. The height and the width of the microchannel is 200 µm and 50 µm, respectively. The dimple/protrusion diameter is 100 µm, and the depth is 20 µm. The effects of Reynolds number, streamwise pitch, and arrangement pattern are examined. The numerical simulations are conducted using water as the coolant with the Reynolds number ranging from 100 to 900. The results show that dimple/protrusion technique in mcirochannel has the potential to provide heat transfer enhancement with low pressure penalty. The normalized Nusselt number is within the range from 1.12 to 4.77, and the corresponding normalized friction factor is within the range from 0.94 to 2.03. The thermal performance values show that the dimple + protrusion cases perform better than the dimple + smooth cases. The flow characteristics of the dimples/protrusions in microchannel are similar to those in conventional channel. Furthermore, from the viewpoint of energy saving, dimples/protrusions in microchannel behave better than those in conventional channel. Also from the viewpoint of field synergy principle, the synergy of the dimple + protrusion cases are much better than the dimple + smooth cases. Moreover, the synergy becomes worse with the increase in the Reynolds number and decrease in the streamwise pitch. DEWEY : 536 ISSN : 0022-1481 En ligne : http://asmedl.org/getabs/servlet/GetabsServlet?prog=normal&id=JHTRAO000134000002 [...] [article] Flow and heat transfer in microchannels with dimples and protrusions [texte imprimé] / Jibing Lan, Auteur ; Yonghui Xie, Auteur ; Di Zhang, Auteur . - 2012 . - 09 p.
Heat transfer
Langues : Anglais (eng)
in Journal of heat transfer > Vol. 134 N° 2 (Fevrier 2012) . - 09 p.
Mots-clés : Computational fluid dynamics Heat transfer Laminar flow Microchannel flow Navier-Stokes equations Numerical analysis Index. décimale : 536 Chaleur. Thermodynamique Résumé : Flow characteristics and heat transfer performances in a rectangular microchannel with dimples/protrusions are studied numerically in this research. The height and the width of the microchannel is 200 µm and 50 µm, respectively. The dimple/protrusion diameter is 100 µm, and the depth is 20 µm. The effects of Reynolds number, streamwise pitch, and arrangement pattern are examined. The numerical simulations are conducted using water as the coolant with the Reynolds number ranging from 100 to 900. The results show that dimple/protrusion technique in mcirochannel has the potential to provide heat transfer enhancement with low pressure penalty. The normalized Nusselt number is within the range from 1.12 to 4.77, and the corresponding normalized friction factor is within the range from 0.94 to 2.03. The thermal performance values show that the dimple + protrusion cases perform better than the dimple + smooth cases. The flow characteristics of the dimples/protrusions in microchannel are similar to those in conventional channel. Furthermore, from the viewpoint of energy saving, dimples/protrusions in microchannel behave better than those in conventional channel. Also from the viewpoint of field synergy principle, the synergy of the dimple + protrusion cases are much better than the dimple + smooth cases. Moreover, the synergy becomes worse with the increase in the Reynolds number and decrease in the streamwise pitch. DEWEY : 536 ISSN : 0022-1481 En ligne : http://asmedl.org/getabs/servlet/GetabsServlet?prog=normal&id=JHTRAO000134000002 [...]