Flow Distribution and Pressure Drop for Parallel Flow

スポンサーリンク

概要

• 論文の詳細を見る

• On the basis of subchannel analysis, a simple model to predict the flow distribution and the pressure drop for a turbulent flow through rod bundles is developed. The model is applicable to an isothermal, fully developed flow. The most significant feature of it is that the geometry factor of a turbulent flow for a subchannel is evaluated from that of a laminar flow. The proposed model is tested by the experimental data of the other investigators as well as the authors. The calculated values of the flow distribution and the pressure drop are in good agreement with the experimental data. The dissipation of energy due to wall friction in a rod bundle is discussed. The result shows that the condition of the minimum dissipation is equivalent to that of equal frictional pressure gradient in each subchannel.

• 一般社団法人日本機械学会の論文

著者

• Sadatomi Michio

  Faculty Of Engineering Kumamoto University

• SATO Yoshifusa

  Faculty of Engineering, Kumamoto University

• MINE Takao

  Energy Engineering Section, Kakogawa Works, KOBE STEEL Ltd.

• Mine Takao

  Energy Engineering Section Kakogawa Works Kobe Steel Ltd.

• Sato Yoshifusa

  Faculty Of Engineering Kumamoto University

• Sato Yoshifusa

  Faculty Of Engineering Kumamoto Univ.

関連論文

• Momentum and Heat Transfer in Two-Phase Bubble Flow in Concentric Annuli
• Flow Distribution and Pressure Drop for Parallel Flow
• Two-Phase Flow Characteristics in the Disturbed Flow Region after Mixing Air and Water
• Forced Convective Heat Transfer in Vertical Air-water Bubble Flow
• Performance of Air-Lift Pump

スポンサーリンク