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Design optimization of low-speed axial flow fan blade with three-dimensional RANS analysis Ki-Sang Lee
The Journal of Mechanical Science and Technology, vol. 22, no. 10, pp.1864-1869, 2008
Abstract : This work presents a numerical optimization procedure for a low-speed axial flow fan blade with polynomial response
surface approximation model. Reynolds-averaged Navier-Stokes equations with SST turbulence model are
discretized by finite volume approximations and solved on hexahedral grids for flow analyses. The blade profile as well
as stacking line is modified to enhance blade total efficiency, i.e., the objective function. The design variables of blade
lean, maximum thickness and location of maximum thickness are selected, and a design of experiments technique produces
design points where flow analyses are performed to obtain values of the objective function. A gradient-based
search algorithm is used to find the optimal design in the design space from the constructed response surface model for
the objective function. As a main result, the efficiency is increased effectively by the present optimization procedure.
And, it is also shown that the modification of blade lean is more effective to improve the efficiency rather than modifying
blade profile.
Keyword :
Axial flow fan; Design optimization; Navier-stokes equations; Stacking line; Lean; Maximum blade thickness; Response
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