In the case of multiple loading conditions, a moving blade adjustable axial flow fan structure parameters are optimized by ANSYS. It is to achieve greater efficiency and less noise for the optimization goal. For different conditions, establish efficiency, noise comprehensive objective function using weighted coefficient method. Select impeller diameter, the wheel hub ratio, leaf number, lift coefficient, speed as design variables, Choose blade installation Angle, the wheel hub place dynamic load coefficient, cascade consistency, allowable safety coefficient as optimization of the state variables. Design variables contain continuous variables and discrete variable. Through the optimization method, we get the optimal structure parameters finally. And at the same time get the corresponding optimal blade installation Angle, under different working conditions.
Based on ANSYS APDL Language Moving Blade Adjustable Axial Flow Fan Optimization Design
ICAMMP, International Conference on Advances in Materials and Manufacturing Processes, 2012 ; 435-444
Advanced Materials Research ; 655-657
2013
10 Seiten
Aufsatz (Konferenz)
Englisch
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