A predictive-corrective process for predicting forced convective heat transfer in heated tubes at supercritical pressures

Accurate prediction of convective heat transfer coefficients for supercritical fluids (including CO2) is still an unsolved problem, owning to the rapid variation of thermal physical properties in pseudo-critical zone. A new approach has been introduced to predict heat transfer in tubes at the vicinity of the pseudo-critical point using the predictive-corrective method (SHTP-PCM). It is based on two dimension-less numbers, which reflect quantitatively the strength of buoyancy and flow-acceleration effects, Bu and Ac, and a set of convective heat transfer correlations for supercritical CO2, which were derived from forced convective heat-transfer data of CO2 flow. An assessment of this new approach showed an improvement in prediction accuracy (i.e., the average bias and the standard deviation) of heat transfer. The percentage of predicted inner wall temperatures within error range of 10% increased by about 16% and 5% for upward flow and downward flow, respectively. What's more, high prediction scatter points from existing correlations were relieved greatly. (C) 2017 Elsevier Ltd. All rights reserved.