Steady or Unsteady Fluid Flow Fluids can move or flow in many ways. In steady flow the velocity of the fluid particles at any point is constant as time.

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Presentation transcript:

Steady or Unsteady Fluid Flow Fluids can move or flow in many ways. In steady flow the velocity of the fluid particles at any point is constant as time passes. Unsteady flow exists whenever the velocity at a point in the fluid changes as time passes. Turbulent flow is an extreme kind of unsteady flow.

Compressible or Incompressible Fluid Flow Most liquids are nearly incompressible; that is, the density of a liquid remains almost constant as the pressure changes. To a good approximation, then, liquids flow in an incompressible manner. In contrast, gases are highly compressible. However, there are situations in which the density of a flowing gas remains constant enough that the flow can be considered incompressible.

Viscous or Nonviscous Fluid Flow A viscous fluid, such as honey, does not flow readily and is said to have a large viscosity. In contrast, water is less viscous and flows more readily; water has a smaller viscosity than honey. The flow of a viscous fluid is an energy-dissipating process. A fluid with zero viscosity flows in an unhindered manner with no dissipation of energy. Although no real fluid has zero viscosity at normal temperatures, some fluids have negligibly small viscosities. An incompressible, non-viscous fluid is called an ideal fluid.

Streamline Flow When the flow is steady, streamlines are often used to represent the trajectories of the fluid particles. A streamline is a line drawn in the fluid such that a tangent to the streamline at any point is parallel to the fluid velocity at that point. Steady flow is often called streamline flow.

11.8 The Equation of Continuity Q: Have you ever used your thumb to control the water flowing from the end of a hose? A: When the end of a hose is partially closed off, thus reducing its cross-sectional area, the fluid velocity increases. This kind of fluid behavior is described by the equation of continuity.

Equation of Continuity

Bernoulli’s Equation In the steady flow of a non-viscous, incompressible fluid of density , the pressure P, the fluid speed v, and the elevation y at any two points (1 and 2) are related by

11.10 Applications of Bernoulli's Equation The tarpaulin that covers the cargo is flat when the truck is stationary but bulges outward when the truck is moving.

Household Plumbing In a household plumbing system, a vent is necessary to equalize the pressures at points A and B, thus preventing the trap from being emptied. An empty trap allows sewer gas to enter the house.

Curveball Pitch

Airplane

Problem 105 An aneurysm is an abnormal enlargement of a blood vessel such as the aorta. Because of the aneurysm, the normal cross-sectional area A 1 of the aorta increases to a value of A 2 = 1.7 A 1. The speed of the blood through a normal portion of the aorta is v 1 = 0.40 m/s. Assuming that the aorta is horizontal (the person is lying down), determine the amount by which the pressure P 2 in the enlarged region exceeds the pressure P 1 in the normal region. (Density of blood = 1060 kg/m 3 )