Phase change heat transfer via pool boiling is an effective and low-cost method for applications such as electronics cooling and noticeably depends on bubble dynamics behavior. Porous copper surfaces provide a larger heat transfer area and more nucleation sites at the liquid-surface interface and improve heat transfer compared to bare copper surfaces. In addition, the capability of copper foams in surface replenishment and capillary wicking prevents surface dry-out at elevated heat fluxes. Graphene has recently attracted increasing attention in thermal management applications due to its exceptional thermal and mechanical properties. This study focuses on the effects of foam thickness (i.e., 0.5 mm, 1 mm, 1.5 mm, and 2 mm) and graphene-coati...
An experimental study is conducted to determine the nucleate pool boiling heat transfer performance ...
This paper presents the results of a study of enhanced boiling heat transfer (BHT) and critical heat...
Modifying the surface wettability at the solid-liquid interface can significantly improve flow boili...
Boiling is an efficient heat-transfer mechanism because of the utilization of latent heat of vaporiz...
Miniaturization in microelectronics demands effective thermal management from high energy density de...
The miniaturization of electronic devices requires advanced thermal management techniques. The two-p...
The use of pool boiling for heat transfer cooling has been widely researched and implemented. A numb...
Rapid growth and advancements in high-power electronic devices, IC chips, electric vehicles, and lit...
Molecular dynamics simulations were employed to understand the improved thermal conductivity and wat...
Silver Epoxy reinforcement is pivotal to enhance the adhesive strength of Graphene nanoplatelets (GN...
DoctorCritical heat flux (CHF) is the operation limit of thermal systems using nucleate boiling heat...
AbstractPool boiling heat transfer of water saturated at atmospheric pressure was investigated exper...
We report an investigation of the boiling heat transfer characteristics of graphene-based materials....
Pool boiling heat transfer has proven to be the most effective ways to dissipate the large amount of...
In this Capstone Project, I sought to investigate the boiling performance of graphene-coated surface...
An experimental study is conducted to determine the nucleate pool boiling heat transfer performance ...
This paper presents the results of a study of enhanced boiling heat transfer (BHT) and critical heat...
Modifying the surface wettability at the solid-liquid interface can significantly improve flow boili...
Boiling is an efficient heat-transfer mechanism because of the utilization of latent heat of vaporiz...
Miniaturization in microelectronics demands effective thermal management from high energy density de...
The miniaturization of electronic devices requires advanced thermal management techniques. The two-p...
The use of pool boiling for heat transfer cooling has been widely researched and implemented. A numb...
Rapid growth and advancements in high-power electronic devices, IC chips, electric vehicles, and lit...
Molecular dynamics simulations were employed to understand the improved thermal conductivity and wat...
Silver Epoxy reinforcement is pivotal to enhance the adhesive strength of Graphene nanoplatelets (GN...
DoctorCritical heat flux (CHF) is the operation limit of thermal systems using nucleate boiling heat...
AbstractPool boiling heat transfer of water saturated at atmospheric pressure was investigated exper...
We report an investigation of the boiling heat transfer characteristics of graphene-based materials....
Pool boiling heat transfer has proven to be the most effective ways to dissipate the large amount of...
In this Capstone Project, I sought to investigate the boiling performance of graphene-coated surface...
An experimental study is conducted to determine the nucleate pool boiling heat transfer performance ...
This paper presents the results of a study of enhanced boiling heat transfer (BHT) and critical heat...
Modifying the surface wettability at the solid-liquid interface can significantly improve flow boili...