Physical mechanisms for delaying condensation freezing on grooved and sintered wicking surfaces

Abstract: Heat pipes are passive heat transfer devices crucial for systems on spacecraft; however, they can freeze when exposed to extreme cold temperatures. The research on freezing mechanisms on wicked surfaces, such as those found in heat pipes, is limited. Surface characteristics, including surface topography, have been found to impact freezing. This work investigates freezing mechanisms on wicks during condensation freezing. Experiments were conducted in an environmental chamber at 22 °C and 60% relative humidity o… Show more

“…At present, scholars have investigated factors such as flow pattern, physical properties (Bohdal et al, 2019), pipe diameter (Klahm et al, 2010), and mass flow rate (Chun and Seon-Oh, 2000), and have established a relatively comprehensive flow pattern for the condensation heat transfer and pressure drop of single component (Dorao and Fernandino, 2022) and multi-component (He et al, 2020) working fluids in horizontal pipes. To enhance the condensation performance, the inner surface of the pipe can be modified using surface modification techniques to reduce the thermal resistance of Frontiers in Energy Research frontiersin.org the liquid film, which can be achieved by adding different types of fins (Ho et al, 2019), grooves (Stallbaumer-Cyr et al, 2022), or inserts (Ahmadi Moghaddam et al, 2020). This can increase the effective heat transfer area, increase the disturbance effect on the flow, and make the liquid generate centrifugal force to accelerate the transition of the flow pattern inside the tube from stratified flow to annular flow.…”

Research on the thermal performance of the condenser in a loop heat pipe anti-icing system

“…At present, scholars have investigated factors such as flow pattern, physical properties (Bohdal et al, 2019), pipe diameter (Klahm et al, 2010), and mass flow rate (Chun and Seon-Oh, 2000), and have established a relatively comprehensive flow pattern for the condensation heat transfer and pressure drop of single component (Dorao and Fernandino, 2022) and multi-component (He et al, 2020) working fluids in horizontal pipes. To enhance the condensation performance, the inner surface of the pipe can be modified using surface modification techniques to reduce the thermal resistance of Frontiers in Energy Research frontiersin.org the liquid film, which can be achieved by adding different types of fins (Ho et al, 2019), grooves (Stallbaumer-Cyr et al, 2022), or inserts (Ahmadi Moghaddam et al, 2020). This can increase the effective heat transfer area, increase the disturbance effect on the flow, and make the liquid generate centrifugal force to accelerate the transition of the flow pattern inside the tube from stratified flow to annular flow.…”

Research on the thermal performance of the condenser in a loop heat pipe anti-icing system

Inter-droplet frosting propagation mechanism on micropillar patterned surfaces under various supersaturation conditions

Inter-Droplet Frosting Propagation Mechanism on Micropillar Patterned Surfaces Under Various Supersaturation Conditions