ТОМ 93, №2
NUMERICAL SIMULATION OF THE TEMPERATURE FIELDS IN A SINGLE-PHASE FLOW IN AN ASYMMETRICALLY HEATED MINICHANNEL
The heat transfer in the single-phase flow of a liquid in an asymmetrically heated horizontal minichannel was investigated. Thermograms of the surface of a heater in the minichannel and the surface of its adiabatic part have been obtained with the use of an infrared camera, and they were used to construct temperature profiles for these surfaces. Stationary temperature distributions in the insulating foil, the heater surface, and the liquid flow in the minichannel have been obtained, respectively, with the use of the Laplace equation, the Poisson equation, and the energy equation involving the frictional heat losses. The solution of the system of these differential equations with special boundary conditions has culminated in the solution of three sequential inverse problems on the heat conduction in the indicated adjacent regions having different physical parameters. These problems were solved using the Trefftz method, and the temperature of the liquid flow in the minichannel was calculated by the Picard– Trefftz method. The temperature distributions obtained for the liquid flow and the heater surface were used to determine the heat transfer through the liquid–heater interface. The Trefftz and Picard–Trefftz methods yielded similar local heat transfer coefficients and temperature distributions.
Автор: M. Grabowski, M. E. Poniewski, S. Hożejowska, A. Pawińska
Ключевые слова: heat transfer, minichannel, single phase, inverse heat-transfer problem, Picard and Trefftz methods
M. Grabowski, M. E. Poniewski, S. Hożejowska, A. Pawińska. NUMERICAL SIMULATION OF THE TEMPERATURE FIELDS IN A SINGLE-PHASE FLOW IN AN ASYMMETRICALLY HEATED MINICHANNEL // Инженерно-физический журнал. 2020. ТОМ 93, №2. С. 369.
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