This work considers the modeling of time-dependent heat transfer in buildings by using Dynamic Thermal Networks (DTN). The method, which is essentially a response function method, is based on the concept of thermal response of a wall on a unit step change in boundary temperature. DTN gives handy solutions to the transient heat flows through walls, independently on the length and the magnitude of a time step. In order to account for the radiant heat gains in a space, the original DTN method is extended here by the model for the thermal response of a wall on a step change in radiant heat flux. The actual heat gain or cooling load from the radiant heat flux is introduced as the regained flow. It is shown that the regained flux can be modeled w...
The Transfer Function Method (TFM), recommended by American Society of Heating, Refrigerating and Ai...
It is not easy to dynamically analyze thermal bridges that require multi-dimensional analysis in bui...
A novel numerical method is presented for fast and accurate simulation of the dynamic thermal behavi...
The modeling of the energy balance of buildings is a major task in building physics. A new theory ca...
The Dynamic Thermal Network (DTN) approach to the modelling of transient conduction was conceived by...
The calculation of heat flow in the ground, in particular the time-dependent heat loss through the f...
There are many factors that affect the change of room temperature, especially outdoor environmental ...
Today the building sector consumes than third of global energy consumption. Thus, improving building...
The present work deals with an approximate analytical solution for the dynamic temperature field due...
As power density of electrical appliances in a building sector grows up, its thermal effec...
Thermal mass in building envelopes reduces the magnitude of diurnal conductive loads and, in some ca...
Ground thermal energy is a sustainable source that can substantially reduce our dependency on conven...
Heat transfer across envelopes (façade, roof, glazed areas) represents a big share of the energy flo...
International audienceThe dynamic thermal behaviour of the buildings can be represented by thermal n...
This paper describes the evolution of the thermal network and its applications for making simplified...
The Transfer Function Method (TFM), recommended by American Society of Heating, Refrigerating and Ai...
It is not easy to dynamically analyze thermal bridges that require multi-dimensional analysis in bui...
A novel numerical method is presented for fast and accurate simulation of the dynamic thermal behavi...
The modeling of the energy balance of buildings is a major task in building physics. A new theory ca...
The Dynamic Thermal Network (DTN) approach to the modelling of transient conduction was conceived by...
The calculation of heat flow in the ground, in particular the time-dependent heat loss through the f...
There are many factors that affect the change of room temperature, especially outdoor environmental ...
Today the building sector consumes than third of global energy consumption. Thus, improving building...
The present work deals with an approximate analytical solution for the dynamic temperature field due...
As power density of electrical appliances in a building sector grows up, its thermal effec...
Thermal mass in building envelopes reduces the magnitude of diurnal conductive loads and, in some ca...
Ground thermal energy is a sustainable source that can substantially reduce our dependency on conven...
Heat transfer across envelopes (façade, roof, glazed areas) represents a big share of the energy flo...
International audienceThe dynamic thermal behaviour of the buildings can be represented by thermal n...
This paper describes the evolution of the thermal network and its applications for making simplified...
The Transfer Function Method (TFM), recommended by American Society of Heating, Refrigerating and Ai...
It is not easy to dynamically analyze thermal bridges that require multi-dimensional analysis in bui...
A novel numerical method is presented for fast and accurate simulation of the dynamic thermal behavi...