A posteriori modeling error estimation for thermal building applications

Abstract : In thermal building applications, simplified physical models are commonly used by engineers. In multizone models, a building is decomposed into zones and envelopes. As the temperature is assumed homogeneous in the zones, the time evolution of the zone temperature is described by an ordinary differential equation. Concerning the envelopes, a one-dimensional partial differential equation is considered. This simplifed physical model allows to simulate at a reasonable computation cost the thermal behavior of the building. It is particularly useful to evaluate the energy effciency of the building and to propose an optimal control of the building systems such as the heating and the ventilation.
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Communication dans un congrès
International Conference on Adaptive Modeling and Simulation (ADMOS 2017), Jun 2017, Verbania, Italy. ADMOS 2017 - International Conference on Adaptive Modeling and Simulation, 2017, 〈http://congress.cimne.com/admos2017/frontal/default.asp〉
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Soumis le : vendredi 1 septembre 2017 - 11:32:29
Dernière modification le : samedi 23 mars 2019 - 01:29:28

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  • HAL Id : hal-01579152, version 1

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Julien Waeytens, Rachida Chakir, Ludovic Chamoin. A posteriori modeling error estimation for thermal building applications. International Conference on Adaptive Modeling and Simulation (ADMOS 2017), Jun 2017, Verbania, Italy. ADMOS 2017 - International Conference on Adaptive Modeling and Simulation, 2017, 〈http://congress.cimne.com/admos2017/frontal/default.asp〉. 〈hal-01579152〉

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