Affiliation:
1. MTA KFKI Atomic Energy Research Institute, H1525 Budapest, Hungary
Abstract
Studying heat transfer problems of supercritical water, the pressure dependency of thermophysical parameters (density, specific heat, viscosity, and thermal conductivity) and the work done by pressure are often neglected. Here we show that the variations of some physical parameters as functions of pressure have the same order of magnitude than their variations as functions of temperature in supercritical water. Therefore, pressure dependency of physical parameters should be taken into account in heat transfer calculations of supercritical water. It is also pointed out that the work done by pressure should not be neglected in supercritical water since the pressure work term has the same order of magnitude than the convective term near the pseudocritical temperature.
Subject
Mechanical Engineering,Energy Engineering and Power Technology,Aerospace Engineering,Fuel Technology,Nuclear Energy and Engineering
Reference27 articles.
1. Heat Transfer to Supercritical Fluids Flowing in Channels-Empirical Correlations (survey);Pioro;Nucl. Eng. Des.
2. Numerical Analysis of Deterioration Phenomena in Heat Transfer to Supercritical Water;Koshizuka;Int. J. Heat Mass Transfer
3. Turbulent Developing Convective Heat Transfer in a Tube For Fluids Near the Critical Point;Lee;Int. J. Heat Mass Transfer
4. Roelofs, F.
, 2004, “CFD Analysis of Heat Transfer to Supercritical Water Flowing Vertically Upward in a Tube,” NRG Report No. 21353∕04.60811∕P.
5. CFD Validation of a Supercritical Water Flow for SCWR Design Heat and Mass Fluxes;Roelofs
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