Condensation Heat Transfer Coefficient for Internal Flow: Horizontal Tube- Part (1) скачать в хорошем качестве

Condensation Heat Transfer Coefficient for Internal Flow: Horizontal Tube- Part (1)

Heat Transfer, Convection, Heat Transfer Coefficient, Internal Flow, Horizontal Tube, Condensation, Annular Flow, Stratified, Subcooling, Desuperheating The patterns of two-phase flow in a horizontal tube during condensation are influenced by the conditions of the incoming stream. When the vapor is in a superheated condition, a decrease in temperature occurs as heat is transferred to the coolant, leading to the vapor reaching its saturation temperature. Once the vapor cools to this saturation point, it begins to condense on the inner surface of the tube, forming a thin liquid film and resulting in an annular flow pattern. The thickness of this condensate film is determined by the condensation regime that governs the process, which can be either shear or gravity dominated. For a comprehensive explanation of this condensation process, you can check out the video available. 00:00 Introduction and Objectives 04:50 Concept of Internal Flow Condensation in Horizontal Tubes 10:35 Prediction of Condensation Heat Transfer Coefficient 18:13 Closure Useful resources may be found in: https://drive.google.com/file/d/102BC... You can find more information about this topic in the following links: Playlist: Heat Transfer Industrial Applications in Modern Technology https://yt.psee.ly/8qgxqa ResearchGate: https://www.researchgate.net/profile/... LinkedIn:   / tarrad7