2018
DOI: 10.1177/0957650918773932
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Numerical investigation on flow mechanisms of a squirrel cage fan

Abstract: Squirrel cage fan has found wide applications in heating, ventilation and air-conditioning as well as other cooling systems. Although many studies have been conducted to investigate the performance of the squirrel cage fan, the complex flows and the associated flow mechanisms have not been fully elucidated. In this paper, computational fluid dynamics simulations are performed for a comprehensive analysis of the flow throughout a whole squirrel cage fan. A novel representation technique is proposed for a vivid … Show more

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Cited by 20 publications
(7 citation statements)
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“…3,30,31 Pressure inlet and Pressure outlet boundary conditions were adopted on the inlet and outlet, 10 respectively. The rotor-stator interfaces were modeled with the moving reference frame (MRF) method, 3,10 which achieves a frame change across the interface without a relative position change. 29 Dry air with a temperature of 25 � C was selected as the fluid medium.…”
Section: Cfdmentioning
confidence: 99%
“…3,30,31 Pressure inlet and Pressure outlet boundary conditions were adopted on the inlet and outlet, 10 respectively. The rotor-stator interfaces were modeled with the moving reference frame (MRF) method, 3,10 which achieves a frame change across the interface without a relative position change. 29 Dry air with a temperature of 25 � C was selected as the fluid medium.…”
Section: Cfdmentioning
confidence: 99%
“…Wu et al 12 found that the vortices in the blade passages and exiting flow at the blade outlet are significantly determined by the angle of attack of the blade, and the performances of the fan can be improved by choosing appropriate values of the angle of attack. Wang et al 13 proposed a novel representation technique for a quantitative description of the flow velocity distributions at the impeller inlet and outlet to aid a heuristic analysis of the complex flows in squirrel cage fan. The representation technique is capable of effectively measuring the circumferentially non-uniform flow conditions at both the impeller inlet and outlet.…”
Section: Introductionmentioning
confidence: 99%
“…Aerodynamic noise is the main noise of centrifugal fans, which mainly composed of discrete and vortex noises. 1 Due to strong unsteady interactions between nonuniform air flow at the rotating impeller outlet and the volute, the volute surface, especially the volute tongue area, becomes the main noise source of a centrifugal fan. This unsteady force is one of the main reasons for discrete noise from fans.…”
Section: Introductionmentioning
confidence: 99%