Heat Transfer during Annular Flow Condensation of Steam inside Tubes
スポンサーリンク
概要
- 論文の詳細を見る
Experimental data of the heat transfer coefficient during annular flow condensation of steam inside a horizontal tube are presented and compared with the data on vertical downflow condensation and analytical predictions presented so far. Based on an ideal annular flow model, a method for predicting the heat transfer coefficient is proposed for both horizontal flow and vertical downflow.
- 一般社団法人日本機械学会の論文
著者
-
Inoue Mitsuru
Faculty Of Engineering University Of Tokyo
-
Ueda Tatsuhiro
Faculty Of Engineering University Of Tokyo
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