Fluid Resistance

1. Fluid Resistance

2. Objectives • Define drag • Explain the difference between laminar and turbulent flow. • Explain the difference between frictional drag and pressure drag. • Define viscosity and explain how it can be measured. • Use Stoke’s law and Poiseuille’s Law to solve problems involving fluid resistance.

3. Review • Frictional force – the opposing force resulting when one solid slides against another. • Drag – the opposing force of an object in a fluid.

4. Factors effecting drag • Speed of the object (or fluid) • Size and shape of the object • The physical properties of the fluid

5. Speed of Fluid • Laminar (streamlined) - results in frictional drag. • Turbulent – results in pressure drag

6. Speed of Fluid • Drag forces increase linearly with velocity until turbulence takes place.

7. Viscosity ( - eta) • The property of fluid that describes its internal frictional forces (like the density of a fluid). • Syrup and tar have high viscosity whereas air and water have less viscosity • Viscosity units lb N s s * * ft2 m2 F y (Pa • s) (psi • s)  = A v

8. Viscosity (cont.) • A Liquid's viscosity decreases with temperature increase • A Gas’ viscosity increases with increases in temperature • Motor oil rated by the Society of Automotive Engineers (SAE) – SAE10 has less viscosity than SAE 40. What does 10W40 mean?

9. Stokes’ Law • The drag force on an object in fluid flow (or an object moving in a fluid). Fdrag = 6 r v  Viscosity Product of a constant (sphere) Radius Speed

10. Terminal Velocity • The constant speed that occurs when the drag force equals the gravitational force acting on an object.

11. Poiseuille’s Law • Gives the volume flow rate of a fluid flowing through a tube or pipe. Pipe radius •  r 4 P Change in pressure for length ‘L’ V = - 8  L Volume flow rate Viscosity of fluid

12. Factors effecting flow through a Pipe • Radius (cross-sectional area) of pipe • Length of pipe • Viscosity of fluid • Bends or “T’s” in the pipe -  P R = • V

13. Summary • Drag is the force that opposes the motion of an object moving through a fluid or the force a moving fluid exerts on a stationary object. • Laminar flow is slow, smooth flow over a surface, where particles follow streamlines. The streamlines define theoretical layers of fluid that do not mix. The friction between the successive layers of fluid is called frictional drag. • Turbulent flow is irregular flow with eddies and whorls that mix the fluid. Turbulence causes a wake behind a moving object. The pressure difference between the fluid outside the wake and the fluid inside the wake causes pressure drag.

14. Summary (cont.) • Drag increases with speed. When turbulence is created, pressure drag increases more rapidly than friction drag. • Viscosity is the property of a fluid that describes its internal friction. The SI units of viscosity are Pa • s. • Stokes’ law can be used to calculate the drag force on a sphere moving at constant speed in a viscous fluid. • When drag equals the gravitational force acting on a falling body, the body falls at a constant speed, called the terminal speed of the body. • Poiseuille’s law can be used to calculate the volume flow rate of pressure drop of viscous fluid flowing through a tube or pipe.