In a two-phase heat exchanger, the thermal boundary condition at the boiling wall plays an import role. To investigate the characteristics of its flow and heat transfer, it is required to solve a three-domain conjugation heat transfer problem which takes into account of boiling, conduction, and air convection. In the current design, the saturated water flows into a cylindrical chamber with a tube array, whereas the hot air travels outside of chamber and boils the water inside. The effects of the water inlet velocity and hot air inlet mass flow rate are measured in the experiments. A simulation tool with Graphical User Interface code is developed for predicting the three-domain conjugation heat transfer. The boiling heat transfer in the comp...
Two-phase jet impingement is a compact cooling technology that provides high-heat-flux dissipation a...
The impingement of pipe laminar jets is commonly used in run-out-table cooling in hot rolling mills....
Technologies such as avionics and power electronics are driving the demand for thermal management sc...
In a two-phase heat exchanger, the thermal boundary condition at the boiling wall plays an import ro...
The jet impingement boiling heat transfer is investigated experimentally and numerically in a cylind...
The results of an experimental study of heat transfer, in two-phase condition, from a circular cylin...
Jet impingement heat transfer is a common topic for which many researches had been done. From its co...
The overall heat transfer rate due to boiling of an impinging subcooled liquid jet is attributed to ...
The central purpose of this work is to investigate the fundamental thermal transport and turbulent f...
Jet impingement boiling heat transfer is a potential technique for the removal of very high heat flu...
Free-surface liquid jets are frequently used in primary metals processing operations to control cool...
The object of research is the computational-experimental method of determining and identifying the h...
Graduation date: 2013With continued development of the electronic industry, the demand for highly ef...
Boiling is the most efficient ways of heat transfer even for high power density conditions in many i...
The object of research is the computational-experimental method of determining and identifying the h...
Two-phase jet impingement is a compact cooling technology that provides high-heat-flux dissipation a...
The impingement of pipe laminar jets is commonly used in run-out-table cooling in hot rolling mills....
Technologies such as avionics and power electronics are driving the demand for thermal management sc...
In a two-phase heat exchanger, the thermal boundary condition at the boiling wall plays an import ro...
The jet impingement boiling heat transfer is investigated experimentally and numerically in a cylind...
The results of an experimental study of heat transfer, in two-phase condition, from a circular cylin...
Jet impingement heat transfer is a common topic for which many researches had been done. From its co...
The overall heat transfer rate due to boiling of an impinging subcooled liquid jet is attributed to ...
The central purpose of this work is to investigate the fundamental thermal transport and turbulent f...
Jet impingement boiling heat transfer is a potential technique for the removal of very high heat flu...
Free-surface liquid jets are frequently used in primary metals processing operations to control cool...
The object of research is the computational-experimental method of determining and identifying the h...
Graduation date: 2013With continued development of the electronic industry, the demand for highly ef...
Boiling is the most efficient ways of heat transfer even for high power density conditions in many i...
The object of research is the computational-experimental method of determining and identifying the h...
Two-phase jet impingement is a compact cooling technology that provides high-heat-flux dissipation a...
The impingement of pipe laminar jets is commonly used in run-out-table cooling in hot rolling mills....
Technologies such as avionics and power electronics are driving the demand for thermal management sc...