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Show BOILER SIMULATION IN PRACTICAL ENGINEERING - THREE CASE STUDIES Kati Savolainen, Pauli Dernjatin, Erkki Maki-Mantila, Kari Jadskeldinen Imatran Voima Oy, IVO Technology Centre, Finland Abstract- A R D E M U S , the computational fluid dynamics (CFD) based modelling tool, has been used for several years in I V O for the development, troubleshooting and design of burners and furnaces. This paper introduces three different cases, in which A R D E M U S has been used in practical combustion engineering. Case one was severe slagging of Naantali Unit 3 after the low-NOx modification. A R D E M U S calculations were used to analyze the existing situation. Results indicated high temperatures and an accumulation of coal particles near the walls, which caused the high potential for slagging. The solution was to increase the space between the burners in order to decrease the heat release rate in the burner zone. B y using A R D E M U S , different burner configurations were studied before deciding on the final solution. Reduced temperatures in the furnace could be observed after the modification as well as reduced slagging and a better availability of the unit. In the second case, ARDEMUS was used to analyse the furnace behaviour at a power plant in changing the fuel from brown coal to hard coal. After the fuel switching, the furnace absorption will increase resulting in a lower furnace exit gas temperature. That is why the superheater and reheater sections of the boiler must be redesigned. In this case, A R D E M U S was used to predict the furnace exit gas temperature before and after changing the fuel, and these results were used to redesign the pressure parts of the boiler. The third case presents, how ARDEMUS single flame model can be used to improve the performance of the existing low-NOx burners. |