Add to ORKGNucleate boiling is important in many energy systems including light water reactors. Currently significant efforts are underway to develop mechanisticmodels for nucleate boiling based on computational fluid dynamics (CFD). Development and validation of these models require new high fidelity experimental data with high spatial and temporal resolutions. Previous work such as has measured temperature distributions and diameter of a growing bubble. It is important to obtain further information, such as bubble shape during growth and after departure, and velocity profiles in the liquid.This paper presents an improved experimental approach for synchronized measurement of these data
Nucleate pool boiling experiments for binary mixtures, which are consisted of R11 and R113, were per...
Boiling processes are widely used in technical applications. The chemical industry, power plant tech...
Boiling process is characterized by the rapid formation of vapour bubbles at the solid–liquid interf...
We study nucleate pool boiling in water at saturation temperature and ambient pressure under low hea...
Boiling is an effective heat removal process, used for heat exchange and thermal management purposes...
With power dissipation rates of modern technologies on the rise, enormous efforts are going toward l...
Nucleate pool boiling experiments with constant wall temperature were performed using pure R113 for ...
Mechanistic numerical simulations have been developed for pool nucleate boiling involving large gro...
Engineers designing nuclear reactors use conservative parameters in order to accommodate the large u...
Thesis: Ph. D., Massachusetts Institute of Technology, Department of Nuclear Science and Engineering...
Mechanistic numerical simulations have been developed for pool nucleate boiling involving large grou...
Nucleate pool boiling experiments for pure R11 with a constant wall temperature condition were carri...
Boiling is a very effectiveheat removal process exploited in many applications, from electronic devi...
The vapor bubble formation on the heating surface during pool boiling has been studied experimentall...
This paper presents the results of a nucleate boiling experiment performed in the framework of the 4...
Nucleate pool boiling experiments for binary mixtures, which are consisted of R11 and R113, were per...
Boiling processes are widely used in technical applications. The chemical industry, power plant tech...
Boiling process is characterized by the rapid formation of vapour bubbles at the solid–liquid interf...
We study nucleate pool boiling in water at saturation temperature and ambient pressure under low hea...
Boiling is an effective heat removal process, used for heat exchange and thermal management purposes...
With power dissipation rates of modern technologies on the rise, enormous efforts are going toward l...
Nucleate pool boiling experiments with constant wall temperature were performed using pure R113 for ...
Mechanistic numerical simulations have been developed for pool nucleate boiling involving large gro...
Engineers designing nuclear reactors use conservative parameters in order to accommodate the large u...
Thesis: Ph. D., Massachusetts Institute of Technology, Department of Nuclear Science and Engineering...
Mechanistic numerical simulations have been developed for pool nucleate boiling involving large grou...
Nucleate pool boiling experiments for pure R11 with a constant wall temperature condition were carri...
Boiling is a very effectiveheat removal process exploited in many applications, from electronic devi...
The vapor bubble formation on the heating surface during pool boiling has been studied experimentall...
This paper presents the results of a nucleate boiling experiment performed in the framework of the 4...
Nucleate pool boiling experiments for binary mixtures, which are consisted of R11 and R113, were per...
Boiling processes are widely used in technical applications. The chemical industry, power plant tech...
Boiling process is characterized by the rapid formation of vapour bubbles at the solid–liquid interf...