Combustion Modeling in Industrial Furnaces
Organizers
M.Carvalho (Portugal),
maria@navier.ist.utl.pt
and
P.Stankov (Bulgaria),
pstankov@vmei.acad.bg
Abstract
Several problems arise when combustion in an industrial boiler is numerically
modelled. Tipically the mathematical model is a compromise between the process
complexity and the real possibilities for numerical simulation. In this
minisymposia we are going to present some recent achievements in practical
predictions of combustion in hot-water and steam boilers, including the
assessment of the numerical results on the basis of a comparision with
experimental data. energy efficiency and environmental problems will
be discussed too.
Presentations
-
P. Stankov,
Computer Simulation and Control of the Combustion Process in Industrial
Boilers
-
F. Dinkelacker, S. Hoelzler, K.-P. Helbig, A. Leipertz,
Implementation and test of a turbulent-flame-speed-closure model for
premixed turbulent flame calculations
-
P. Stankov, D. Markov, Y. Dinkov, V. Petrov, D. Toporov,
Burners configuration impact on the thermal effectiveness of the PTVM-100 (R)
hot water boiler
-
D. Markov, P. Stankov, Y. Dinkov, S. Yotovski,
On the influence of the air supply on the thermal effectiveness of a PK-35
steam boiler
-
Y. Dinkov, P. Stankov, D. Markov and F. Dinkelacker,
Thermal effectiveness of the PTVM 100 (R) hot-water boiler at different burners
load
-
D. Markov, P. Stankov and F. Andersen,
The role of the air supply on NOx generation in PK-35 steam boiler