The HEAT TRANSFER PERFORMANCE IN 3D INDUCED FINNED HEAT PIPE Presentation is about 3D induced finned steel-water heat pipe. The important parameters which affect the function of heat transfer of heat pipe like inclination angle, heat flux,working temperature, Weather conditions, and fluid fill ratio are tested.
The heat transfer coefficients of condensation and evaporation in 3D induced finned heat pipe are incremented on relating to smooth gravity-assisted heat pipe within the similar temperature. Hence, the conclusion made is special form of 3D-fins internally decreases considerably the thermal resistance of heat pipe internally and increase the function of heat transfer.
The HEAT TRANSFER PERFORMANCE IN 3D INDUCED FINNED HEAT PIPE PROJECT Power Point Presentation describes the nomenclature namely Le which defines the length of evaporation of heat pipe, La defines the length of adiabatic of heat pipe, and Lc defines length of condensation of heat pipe. The applications of the system are Power Plants, Aero Space, Chemical Industries, and Hydraulic Couplings.
The coefficients of evaporation and condensation in 3D heat pipe are increased like the gravity of heat pipe within the particular conditions. Hence, the important structures of inner wall of 3D heat pipe decreases thermal resistance of internal heat pipe and then highly increases the transfer of heat performance.
Therefore the Department of Mechanical Engineering Final Semester project concludes on the 3D induced finned steel-water heat pipe with its important parameters. It influences the function of heat transfer of heat pipe like heat flux, working temperature, inclination angle, and fluid fill ratio are tested. Therefore, special structure of 3D-fins decreases the thermal resistance of heat pipe and increases the heat transfer.
Download Heat Transfer Performance in 3d Induced Finned Heat Pipe Project ppt