Numerical modeling of conjugate heat transfer of a rotary disk

Abstract: This paper deals with the problem of conjugate heat transfer of a rotary disk which is uniformly heated. Computational fluid dynamics simulations are performed for different ranges of rotational Reynolds number (20,000-50,000) and heat flux (100, 200, and 400 kW/m 3) on this surface. Two numerical approaches including multiple reference frame and sliding mesh are employed to simulate the interaction between rotary and stationary domains. It is shown that both methods yield satisfactory results, and an excellen… Show more

“…Each region of an impinging jet features different turbulence dynamics and requires an in-depth flow physics analysis using advanced experimental techniques. Numerous studies on heat transfer and fluid flow in jet impinging on rotating surface illustrated the complexity of the fluid flow for simple geometries [11]. The boundary layer development along the impinging wall and the strong streamline curvature in the impinging region are some of the characteristics, which make the flow very complex [12,13].…”

Experimental Investigation of the Vortex Dynamics in Circular Jet Impinging on Rotating Disk

“…Each region of an impinging jet features different turbulence dynamics and requires an in-depth flow physics analysis using advanced experimental techniques. Numerous studies on heat transfer and fluid flow in jet impinging on rotating surface illustrated the complexity of the fluid flow for simple geometries [11]. The boundary layer development along the impinging wall and the strong streamline curvature in the impinging region are some of the characteristics, which make the flow very complex [12,13].…”

Experimental Investigation of the Vortex Dynamics in Circular Jet Impinging on Rotating Disk

A review paper on heat transfer and flow dynamics in subsonic circular jets impinging on rotating disk

Modeling of Silicone Oil Clutch for Analyzing Thermal Performance