Experimental and computational activities were performed to determine the possible improvements of total environmental impact of a wood-open fireplace. Two models of fireplaces will be discussed, both with the same power and with only a difference relative to the geometry of the internal elements of the heat exchanger. In the second model the two blades have been substituted with one pipe that represents a possible and cheaper solution in the way of optimization. The optimization process has been conducted up to the determination of a third configuration with a better thermal efficiency. While combustion emissions are difficult to reduce where only a minimum control of actual combustion conditions can be ensured in such domestic appliances, a significant improvement can be considered for the heat recover efficiency. This improvement can be achieved through a detailed analysis of the thermal conditions realized and can require modifications to the heat exchanger geometry profitable from the manufacturing point of view too.
[1]
S. Orszag,et al.
Development of turbulence models for shear flows by a double expansion technique
,
1992
.
[2]
W. A. Fiveland,et al.
Three-dimensional radiative heat-transfer solutions by the discrete-ordinates method
,
1988
.
[3]
A. Demirbas,et al.
Combustion characteristics of different biomass fuels
,
2004
.
[4]
Daniel Ashlock,et al.
Optimization of heat transfer utilizing graph based evolutionary algorithms
,
2003
.
[5]
J. P. V. Doormaal,et al.
ENHANCEMENTS OF THE SIMPLE METHOD FOR PREDICTING INCOMPRESSIBLE FLUID FLOWS
,
1984
.