Experiment of Heat Transfer on the Surfaces with Transverse Fins for Flow Direction
スポンサーリンク
概要
- 論文の詳細を見る
The heat transfer and the pressure drop are experimentally studied on the extended heating surfaces with transverse fins for flow direction placed in the air channel of rectangular cross section. From the results of experiment on the effects of fin whose pitch and height are p and l respectively, channel height and Reynolds number, empirical equations for the heat transfer coefficient and the friction factor are presented. It has been shown that the ratio of fin pitch to fin height p/l is a most important factor for the heat transfer and pressure drop performance. In the case of the value of p/l=1.2〜1.6,the finned surface shows the most effective performance. The flow patterns between fins of the surface are observed and the effect of fin materials is also studied experimentally.
- 一般社団法人日本機械学会の論文
著者
-
Ueda Tatsuhiro
Faculty Of Engineering University Of Tokyo
-
HARADA Ichiro
Muroran Works, Fuji Iron & Steel Co., Ltd.
-
Harada Ichiro
Muroran Works Fuji Iron & Steel Co. Ltd.
関連論文
- Heat Transfer and Pressure Drop for Flow Condensation Inside a Vertical Tube
- Heat Transfer Characteristics and Dynamic Behavior of Saturated Droplets Impinging on a Heated Vertical Surface
- The Leakage of Air Through Radial Labyrinth Glands : On the Straight Through Type
- On the Characteristics of Confluent Flow of Gas-Liquid Mixtures in Headers
- Entrainment Rate and Size of Entrained Droplets in Annular Two-Phase Flow
- Studies of Liquid Film Flow in Two-Phase Annular and Annular-Mist Flow Regions : (Part 1,Downflow in a Vertical Tube)
- Experiment of Heat Transfer on the Surfaces with Transverse Fins for Flow Direction
- On Upward Flow of Gas-Liquid Mixtures in Vertical Tubes : 2nd Report, Consideration of Frictional Pressure Drop and Void Fraction
- On the Characteristics of Divided Flow and Confluent Flow in Headers
- Heat Transfer during Annular Flow Condensation of Steam inside Tubes
- Droplet Transfer in Two Phase Annular Mist Flow : Part 2,Prediction of Droplet Transfer Rate
- On Upward Flow of Gas-Liquid Mixtures in Vertical Tubes : 3rd Report, Heat Transfer Results and Analysis
- On Upward Flow of Gas-Liquid Mixtures in Vertical Tubes : 1st Report, Experiment and Analysis of the Flow State
- Droplet Transfer in Two-Phase Annular Mist Flow : Part 1, Experiment of Droplet Transfer Rate and Distributions of Droplet Concentration and Velocity
- Dryout Heat Flux and Size of Entrained Drops in a Flow Boiling System