Natural Convective Heat Transfer on a Vertical Plate with Discontinuous Surface Temperature : Effect of Heat Conduction in the Plate
スポンサーリンク
概要
- 論文の詳細を見る
Natural convective heat transfer from a vertical plate having separated heating elements has been studied by numerical computation and experiment. IT has been found that convective heat transfer from the plate and the temperature distribution of unheated elements vary depending upon the ratio of thermal conductivity of convective fluid to that of the material of unheated elements, the ratio of thickness to length of unheated elements, and the length and surface temperature of heating elements. The heat transfer data are correlated by using a parameter S=B.R_λ/Gr_L^<1/4>, presented in this paper through the vectorial dimensional analysis, and by an observation of convective behavior visualized by Mach-Zehnder interferometer and computational results. An empirical formula has been presented to predict heat transfer coefficients of discontinuously heated plates based on the new parameter S.
- 一般社団法人日本機械学会の論文
著者
-
Kishinami Koki
Department Of Industrial-mechanical Engineering Muroran Institute Of Technology
-
Kishinami Koki
Department Mechanical Systems Engineering Muroran Institute Of Technology
-
SAITO Hakaru
Department of Industrial-Mechanical Engineering, Muroran Institute of Technology
-
Saito Hakaru
Department Of Industrial-mechanical Engineering Muroran Institute Of Technology
-
Saito Hakaru
Department Of Industrial Mechanical Engineering Muroran Institute Of Technology
関連論文
- Experimental and numerical studies on rock bed heat storage for room heating systems
- A307 HEAT TRANSFER CHARACTERISTICS OF FOAM FLOW AT TEMPERATURE UP TO 373K OF HEATING SURFACE(Multiphase flow problems)
- Natural Convective Heat Transfer on a Vertical Plate with Discontinuous Surface Temperature : Effect of Heat Conduction in the Plate
- COMPARISON BETWEEN NOCTURNAL COOLING OF WATER IN A CLOSED LOOP FORCED CIRCULATION AND OPEN LOOP SYSTEMS
- An Experimental Study on Free Convection Heat Transfer from Vertically Lined Horizontal Cylinders Set between Parallel Walls