TY - CPAPER
DO - https://doi.org/10.26868/25222708.2009.0615-622
UR - https://publications.ibpsa.org/conference/paper/?id=bs2009_0615_622
PY - 2009
DA - 2009/July
PB - IBPSA
AU - Pierre, Tittelein
AU - Etienne, Wurtz
AU - Gilbert, Achard
TI - USE OF RESPONSE FACTOR METHOD TO MODEL EARTH-TO-AIR HEAT EXCHANGER BEHAVIOUR: INTEGRATION IN A WHOLE BUILDING SIMULATION INTO SIMSPARK PLATFORM
T2 - Proceedings of Building Simulation 2009: 11th Conference of IBPSA
VL - 11
SN -
C1 - Glasgow, Scotland
J2 - Building Simulation
SP - 615-622
AB - This paper shows the numerical model of an earth-toair heat exchanger. The system is discretized into “n” sections perpendicular to the exchanger pipe. In each section, conduction is solved using response factor method in order to reduce computational time. Each response factor is calculated using a finite element program that solves 2D conduction problems. The particularity of this problem is that time-constants are very high, making it impossible to use classical can then be evaluated analytically. The surface temperature of the pipe is connected to the ground temperature using the thermal resistance of the pipe. Some authors consider that the ground temperature is constant by blocks (Serres, Trombe et al., 1997). Others (De Paepe and Janssens, 2003; Ghosal and Tiwari, 2006; Tiwari, Akhtar et al., 2006) analytically calculate the response of a semi-infinite wall solicited by a periodic surface temperature: ω − z⋅ ⎣ ω ⎞ properties of response factors to reduce the number of calculations. We will set out a new approach to Tsoil ( z, t ) = Tsse − Asse ⋅ e 2⋅a ⋅ cos ⎧ ω ⋅ t − z ⋅ 2 ⋅ a ⎠ (1) solve this particular problem. Heat flux entering the pipe is then expressed as a function of the temperature of the air that circulate in the pipe and the external thermal driving forces. A heat balance is then applied for each layer to find the resulting outlet air temperature. The model is then compared to an analytical model and a 3D model based on the dynamic finite volume approach. Finally an example of coupling between an earth-to-air heat exchanger and a low-consumption building is presented.
ER -