NM&A'98

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