Add to ORKGThe critical heat flux (CHF) enhancements were achieved in FC-72 pool boiling using high thermal conductive graphene layer and silicon carbide (SiC) nanoparticles deposition on ITO heaters. The values of CHF for the graphene layer on the ITO surface and SiC deposited on the ITO heater were increased by 9% and 42%, compared to the bare ITO heater, respectively. Infrared (IR) thermometry was used to acquire boiling curves. The enhancement mechanisms were investigated in terms of high thermal conductivity and porosity characterizing the surface modifications based on graphene and SiC, respectively
Molecular dynamics simulations were employed to understand the improved thermal conductivity and wat...
Phase change heat transfer via pool boiling is an effective and low-cost method for applications suc...
The use of pool boiling for heat transfer cooling has been widely researched and implemented. A numb...
This paper presents the results of a study of enhanced boiling heat transfer (BHT) and critical heat...
This paper presents a study on the enhancement in the boiling heat transfer (BHT) and critical heat ...
The objectiveof the present study is to understand pool boiling heat transfer of Indium Tin Oxide (I...
We report an investigation of the boiling heat transfer characteristics of graphene-based materials....
DoctorCritical heat flux (CHF) is the operation limit of thermal systems using nucleate boiling heat...
Graphene oxide (GO) can be deposited on a heater surface to produce nanoscale structures that enhanc...
Quenching experiments were conducted to investigate the effect of nanoparticle deposition on boiling...
Quenching experiments were conducted to investigate the effect of deposition of SiC and graphene oxi...
A honeycomb-structured ceramic porous plate (HPP) was used to increase the critical heat flux (CHF) ...
Critical heat flux (CHF) is the thermal limit of a phenomenon in which a phase change occurs during ...
Critical heat flux (CHF) enhancement is needed to ensure a proper safety margin for the in-vessel re...
Quenching experiments were conducted to investigate the effect of SiC and Graphene Oxide (GO) nanopa...
Molecular dynamics simulations were employed to understand the improved thermal conductivity and wat...
Phase change heat transfer via pool boiling is an effective and low-cost method for applications suc...
The use of pool boiling for heat transfer cooling has been widely researched and implemented. A numb...
This paper presents the results of a study of enhanced boiling heat transfer (BHT) and critical heat...
This paper presents a study on the enhancement in the boiling heat transfer (BHT) and critical heat ...
The objectiveof the present study is to understand pool boiling heat transfer of Indium Tin Oxide (I...
We report an investigation of the boiling heat transfer characteristics of graphene-based materials....
DoctorCritical heat flux (CHF) is the operation limit of thermal systems using nucleate boiling heat...
Graphene oxide (GO) can be deposited on a heater surface to produce nanoscale structures that enhanc...
Quenching experiments were conducted to investigate the effect of nanoparticle deposition on boiling...
Quenching experiments were conducted to investigate the effect of deposition of SiC and graphene oxi...
A honeycomb-structured ceramic porous plate (HPP) was used to increase the critical heat flux (CHF) ...
Critical heat flux (CHF) is the thermal limit of a phenomenon in which a phase change occurs during ...
Critical heat flux (CHF) enhancement is needed to ensure a proper safety margin for the in-vessel re...
Quenching experiments were conducted to investigate the effect of SiC and Graphene Oxide (GO) nanopa...
Molecular dynamics simulations were employed to understand the improved thermal conductivity and wat...
Phase change heat transfer via pool boiling is an effective and low-cost method for applications suc...
The use of pool boiling for heat transfer cooling has been widely researched and implemented. A numb...