Waeytens, Julien CHAKIR, Rachida Chamoin, Ludovic

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-dim...

Djatouti, Zohra Waeytens, Julien Chatellier, Patrice CHAMOIN, Ludovic

To assess the performance of the goal-oriented method in thermal model parameters identification, the technique has been implemented on a simplified mono-zone building thermal model. As a first step, the steady state problem was treated and the parameters to be identified were the global thermal conductivity of the envelope and its outside convecti...

Djatouti, Zohra Waeytens, Julien Chatellier, Patrice CHAMOIN, Ludovic

To assess the performance of the goal-oriented method in thermal model parameters identification, the technique has been implemented on a simplified mono-zone building thermal model. As a first step, the steady state problem was treated and the parameters to be identified were the global thermal conductivity of the envelope and its outside convecti...

Waeytens, Julien CHAKIR, Rachida Chamoin, Ludovic

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-dim...

Djatouti, Zohra Waeytens, Julien Chatellier, Patrice CHAMOIN, Ludovic

To assess the performance of the goal-oriented method in thermal model parameters identification, the technique has been implemented on a simplified mono-zone building thermal model. As a first step, the steady state problem was treated and the parameters to be identified were the global thermal conductivity of the envelope and its outside convecti...

Waeytens, Julien CHAKIR, Rachida Chamoin, Ludovic

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-dim...

Waeytens, Julien CHAKIR, Rachida Chamoin, Ludovic

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-dim...

Djatouti, Zohra Waeytens, Julien Chatellier, Patrice CHAMOIN, Ludovic

To assess the performance of the goal-oriented method in thermal model parameters identification, the technique has been implemented on a simplified mono-zone building thermal model. As a first step, the steady state problem was treated and the parameters to be identified were the global thermal conductivity of the envelope and its outside convecti...

Djatouti, Zohra Waeytens, Julien Chatellier, Patrice CHAMOIN, Ludovic

To assess the performance of the goal-oriented method in thermal model parameters identification, the technique has been implemented on a simplified mono-zone building thermal model. As a first step, the steady state problem was treated and the parameters to be identified were the global thermal conductivity of the envelope and its outside convecti...

Waeytens, Julien CHAKIR, Rachida Chamoin, Ludovic

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-dim...