Abstract
This paper describes the simulation result of biomass gasification-based crematory's secondary combustion chamber via CFD analysis. The chamber models, which were rectangular and cylinder type, were implemented, whereas ANSYS FLUENT with standard k-omega viscous model and SIMPLE algorithm were taken place. The results show that an average residence time of gas and particle if simulating by using rectangular chamber displays as 2 and 3 second, respectively, whereas the average residence time of cylinder chamber type presents 2 second for particle and 4 second for gas. Furthermore, the residence time of cylinder chamber type can be increased by lengthening the chamber's height, which the benefits, such as efficient pollution control, will be earned.
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