Add to ORKGBoiling produces vapor with a phase change by absorbing a consistent amount of heat. Experimentation and modeling can help us better understand this phenomenon. The present study is focused on the heat transfer during the nucleate pool boiling of refrigerant R141b on the surface of a horizontal copper tube. The results of the experiment were compared with four correlations drawn from the literature, and the critical heat flux was examined for different pressures and also compared with the predicted values. Simulating boiling with two-phase models allowed us to infer the plot of the temperature distribution around the tube and compared it to results from other work
Boiling heat transfer on the outside of small diameter tubes in the range of 1.8-3.0mm has been inve...
The experimental study on boiling and condensation heat transfer in a horizontal smooth tube is cond...
An experiment, utilising a condensing fluid as the heat source, was performed to determine the heat ...
Boiling produces vapor with a phase change by absorbing a consistent amount of heat. Experimentation...
An investigation of nucleate boiling on a vertical array of horizontal plain tubes is presented in t...
Nuclear pool boiling has been the primary focus for research in heat transfer arena and has drawn th...
The two-phase flow and boiling heat transfer in horizontal metal-foam filled tubes are experimentall...
Measurements of boiling heat transfer coefficients in water, methanol and refrigerant R141b are repo...
In this chapter the main aspects of the heat transfer phenomena of nucleate pool boiling with smooth...
Nucleate boiling is ubiquitous from daily lives to engineering applications, and the increasing dema...
The present study presents new flow boiling heat transfer results of R-134a flowing inside a 13.84 m...
approach to prediction of the heat transfer coefficient for nucleate pool boiling under high heat fl...
85-91This paper presents an experimental investigation on nucleate pool boiling of saturated liquids...
Pool boiling is one of the main modes of heat transfer in many industrial applications. Therefore, t...
A summary of a comprehensive experimental study on flow boiling heat transfer is presented for five ...
Boiling heat transfer on the outside of small diameter tubes in the range of 1.8-3.0mm has been inve...
The experimental study on boiling and condensation heat transfer in a horizontal smooth tube is cond...
An experiment, utilising a condensing fluid as the heat source, was performed to determine the heat ...
Boiling produces vapor with a phase change by absorbing a consistent amount of heat. Experimentation...
An investigation of nucleate boiling on a vertical array of horizontal plain tubes is presented in t...
Nuclear pool boiling has been the primary focus for research in heat transfer arena and has drawn th...
The two-phase flow and boiling heat transfer in horizontal metal-foam filled tubes are experimentall...
Measurements of boiling heat transfer coefficients in water, methanol and refrigerant R141b are repo...
In this chapter the main aspects of the heat transfer phenomena of nucleate pool boiling with smooth...
Nucleate boiling is ubiquitous from daily lives to engineering applications, and the increasing dema...
The present study presents new flow boiling heat transfer results of R-134a flowing inside a 13.84 m...
approach to prediction of the heat transfer coefficient for nucleate pool boiling under high heat fl...
85-91This paper presents an experimental investigation on nucleate pool boiling of saturated liquids...
Pool boiling is one of the main modes of heat transfer in many industrial applications. Therefore, t...
A summary of a comprehensive experimental study on flow boiling heat transfer is presented for five ...
Boiling heat transfer on the outside of small diameter tubes in the range of 1.8-3.0mm has been inve...
The experimental study on boiling and condensation heat transfer in a horizontal smooth tube is cond...
An experiment, utilising a condensing fluid as the heat source, was performed to determine the heat ...