AUTHOR(S): Jozef Kacur, Michal Kopcok, Jozefa Lukovicová, Alena Struhárová
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TITLE Numerical Quantification of Thermal Properties of Insulation Coating |
KEYWORDS heat transfer coefficient, inverse problem, insulation coat, hollow microspheres |
ABSTRACT We are focused on numerical quantification of thermal properties of insulation coating applied to some building surfaces. The main objective is to determine the insulation coating impact on the heat flux transfer. This flux is modelled in terms of heat transfer coefficient at the surface of solid body. The heat transfer coefficient is obtained from the solution of the inverse heat conduction problem in 3D based on the temperature measurements. The determination procedure is a standard solution of inverse problem based on minimization of discrepancy between measured and computed temperature data. The practical validation is made for specimens of the KORUND® film applied to the concrete. |
Cite this paper Jozef Kacur, Michal Kopcok, Jozefa Lukovicová, Alena Struhárová. (2017) Numerical Quantification of Thermal Properties of Insulation Coating. International Journal of Mechanical Engineering, 2, 1-5 |