1. Numerical Study of Heat Transfer to Supercritical Water in an Inclined Tube.
- Author
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Wang, Siyang, Xin, Yafei, Niu, Tiantian, Li, Yinlong, and Yang, Dong
- Subjects
HEAT transfer ,SUPERCRITICAL water ,WATER transfer ,HEAT flux ,SPECIFIC heat capacity ,NANOFLUIDICS ,PLASMA turbulence - Abstract
A numerical study is conducted to investigate heat transfer characteristics of supercritical water flowing upward in an inclined smooth tube under uniform heating conditions. In this study, model verification was performed under the conditions of low heat flux and high heat flux to ensure the accuracy of experimental data. Inner wall temperature and heat flux distribute non-uniformly on the circumference due to the influence of natural convection. The increase of heat flux enhances the non-uniform circumferential distribution, while the increase of mass flux reduces the non-uniform circumferential distribution. Heat transfer of upward vertical and inclined flows is compared under low and high heat flux conditions. Radial distributions of fluid temperature, density, specific heat capacity, velocity, and turbulent kinetic energy are presented and analyzed. The analysis shows that the increase of heat flux reduces radial turbulence and heat-absorbing capacity of the boundary fluid, while increases radial temperature and density gradient. Three dimensionless buoyancy parameters are used to evaluate the buoyancy effect of inclined flow. [ABSTRACT FROM AUTHOR]
- Published
- 2022
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