DSpace university logo mark
Advanced Search
Japanese | English 

NAOSITE : Nagasaki University's Academic Output SITE > Faculty of Engineering > Bulletin > Reports of the Faculty of Engineering, Nagasaki University > Volume 22, No. 39 >


File Description SizeFormat
kogaku22_39_02.pdf420.65 kBAdobe PDFView/Open

Title: 有限の下向き水平面から飽和液体への膜沸騰熱伝達(続報,伝熱面端部の境界条件および速度と温度のプロフィルが対流熱伝達に及ぼす影響)
Other Titles: Film Boiling Heat Transfer from a Finite-Size Horizontal Plate Facing Downward to a Saturated Liquid(2nd Report, Effects of Boundary Condition at the Plate Edge and Profile Shapes of Velocity and Temperature on Convection Heat Transfer)
Authors: 茂地, 徹 / 山田, 岹 / 金丸, 邦康
Authors (alternative): Shigechi, Toru / Yamada, Takashi / Kanemaru, Kuniyasu
Issue Date: Jul-1992
Publisher: 長崎大学工学部 / Faculty of Engineering, Nagasaki University
Citation: 長崎大学工学部研究報告, 22(39), pp.109-114; 1992
Abstract: An analysis has been made of two-dimensional,steady-state,laminar film boiling heat transfer from a finite-size, isothermal,horizontal plate facing downward to a stagnant saturated liquid. The boundarylayer equations for the vapor flow beneath the heated plate are solved, including the effect of the plate edge, using an integral method. The solutions obtained are examined for the cases of (i) the inclination angle of the vapor-liquid interface to be arbitrarily given at the plate edge and (ii) four combinations of profile shapes of velocity and temperature. For the former case, the maximum heat transfer rate can be obtained at the inclination angle of 90°. For the latter case, four approximate solutions for heat transfer rate are proposed in terms of Nusselt number at the inclination angle of 90°.
URI: http://hdl.handle.net/10069/24373
ISSN: 02860902
Type: Departmental Bulletin Paper
Text Version: publisher
Appears in Collections:Volume 22, No. 39

Citable URI : http://hdl.handle.net/10069/24373

All items in NAOSITE are protected by copyright, with all rights reserved.


Valid XHTML 1.0! Copyright © 2006-2015 Nagasaki University Library - Feedback Powerd by DSpace