Cryogenic Chilldown Model for Stratified Flow Inside a Pipe

Abstract: A pseudo-steady model has been developed to predict the chilldown history of the pipe wall temperature in horizontal transport pipelines for cryogenic fluids. A new film boiling heat transfer model is developed by incorporating the stratified flow structure for cryogenic chilldown. A modified nucleate boiling heat transfer correlation for the cryogenic chilldown process inside a horizontal pipe is proposed. The efficacy of the correlations is assessed by comparing the model predictions with measured values of … Show more

“…Solve the continuity, momentum, and energy equations of the mixture to obtain the density, pressure, and temperature of the mixture. Later [17].Jun Liao established a quasi-steady-state model to predict the temperature change process of the tube wall in the low-temperature fluid horizontal pipeline, and combined with the layered lowtemperature cooling flow structure to develop a new film boiling heat transfer model [18]. Reid Shaeffer explored the cooling method of low-temperature pipelines and studied pulse-flow cooling pipes.…”

Numerical Simulation Research on Precooling Characteristics of LNG Discharge Pipeline

“…Solve the continuity, momentum, and energy equations of the mixture to obtain the density, pressure, and temperature of the mixture. Later [17].Jun Liao established a quasi-steady-state model to predict the temperature change process of the tube wall in the low-temperature fluid horizontal pipeline, and combined with the layered lowtemperature cooling flow structure to develop a new film boiling heat transfer model [18]. Reid Shaeffer explored the cooling method of low-temperature pipelines and studied pulse-flow cooling pipes.…”

Numerical Simulation Research on Precooling Characteristics of LNG Discharge Pipeline

A film boiling model for cryogenic chilldown at low mass flux inside a horizontal pipeline