Numerical study of convective heat transfer to supercritical water in rectangular ducts |
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Authors: | Sang Ho Lee |
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Affiliation: | Department of Mechanical Engineering, Wonkwang University, Cheonbuk 570-749, Republic of Korea |
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Abstract: | Numerical investigation has been performed to analyze forced convective heat transfer to supercritical water in horizontal rectangular ducts. Convective heat transfer near the critical region in the rectangular ducts is strongly influenced by large variations of thermodynamic and transport properties of supercritical fluid with gravity force, especially close to pseudocritical temperature. Fluid flow and heat transfer characteristics such as velocity, temperature, and local heat transfer coefficient with water properties distribution in the ducts are presented. Flow accelerates along the horizontal ducts because of decreased water density from heat transfer at the duct walls. Center of large flow recirculation in the duct section locates near the middle of vertical surface and additional secondary recirculation in clockwise direction appears with the increase of duct height. Local wall temperature severely varies along the inner surface of the duct section and its variation depends on aspect ratio of the duct. The heat transfer coefficient distributions along the ducts for various aspect ratios are compared with the proximity effect to the critical pressure. |
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Keywords: | Supercritical water Convective heat transfer Rectangular ducts Pseudocritical temperature Properties variation Buoyancy force |
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