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Effect of Flow over a Cylinder MAE 5130 Viscous Flow Final Project

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Presentation on theme: "Effect of Flow over a Cylinder MAE 5130 Viscous Flow Final Project"— Presentation transcript:

1 Effect of Flow over a Cylinder MAE 5130 Viscous Flow Final Project
By Shreya Raje

2 Introduction Formation of wake Vortex Shedding

3 Objective To find the effect of flow over a cylinder in terms of following parameters: Pressure Velocity Vorticity

4 Approach For this a two dimensional circular cylinder is drawn along with the direction of flow field perpendicular to its axis in gambit. Cylinder Flow Field Inlet Velocity Pressure Outlet Periodic Wall

5 Meshing

6 Parameters for Calculations for Laminar Flow
An unsteady flow condition was selected to compute the parameters. Consider Flow Field to be Water Velocity (U) m/s Density (ρ) kg/cubic m Kinematic Viscosity (µ) kg/m-s Cylinder Diameter (D) 0.25m Area of each Cylinder (A) 0.5 sq m Renolds number (Re) = (UxDxρ)/µ =2.5x105

7 Parameters for Calculations for Laminar Flow
To see the effect of vortex shedding the frequency is calculated with Strouhal Number as 0.2 Strouhal Number, St= fxD/U f= hz Cycle time,t=1/f=4.976sec time step size=4.976/25 =0.199sec

8 Contour of Static Pressure for Laminar Flow

9 Contour of Velocity Magnitude For Laminar Flow

10 Contours of Vorticity Magnitude For laminar Flow

11 Path lines with Vorticity Magnitude for Laminar
Flow

12 Parameters for Calculations for Turbulent Flow
An unsteady flow condition was selected to compute the parameters. Consider Flow Field to be Water Velocity (U) 2.5 m/s Density (ρ) kg/cubic m Kinematic Viscosity (µ) kg/m-s Cylinder Diameter (D) 0.25m Area of each Cylinder (A) 0.5 sq m Renolds number (Re) = (UxDxρ)/µ = 1.244x106

13 Parameters for Calculations for Turbulent Flow
To see the effect of vortex shedding the frequency is calculated with Strouhal Number as 0.2 Strouhal Number, St = fxD/U f = 1hz Cycle time,t=1/f=1sec Time Step Size=1/25=0.04sec

14 Contour of Static Pressure for Turbulent Flow

15 Contour of Velocity Magnitude For Turbulent Flow

16 Contours of Vorticity Magnitude For Turbulent Flow

17 Path lines with Vorticity Magnitude for Turbulent Flow

18 Results And Conclusion
Sr No Parameter Flow Obtained Values Theoretical 1 Angle Laminar Approx 80o 82o Turbulent Approx 130o 120o 2 Coeffient of Drag 0.8166 1.2 0.4614 0.3

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