The response variable, the cyclone collection efficiency, was calculated in accordance with the Muschelknautz model using a spreadsheet software. A number of 62 treatments were performed following Box-Behnken experimental design of seven factors and three levels (-1, 0 and +1). Independent variables being optimized include seven geometry parameters of inlet height (a/D), inlet width (b/D), vortex finder height (S/D), vortex finder diameter (D e/D), total cyclone height (H t/D), cylinder height (h/D), and cone tip diameter (B c/D). A Response surface methodology coupled with a Box-Behnken design experiment has been utilized to optimize geometry parameters of a cyclone as a gas-solid separator in an effort to obtain a maximum particle collection efficiency.
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