Density of liquids
It is assumed to be constant
i.e. flowing liquids are assumed to be incompressible and temperature resistant
Density of gases
It can be assumed to be constant
Mach Number < 0.3 and constant temperature flowing gases can be assumed to be incompressible
Ideal Gas Law - p⋅V=m⋅R⋅T
p: Pressure of the gas [Pa or N/m²]
V: Volume of the gas [m³]
m: Mass of the gas [kg]
R: Specific gas constant [J/(kg·K)]
T: Absolute temperature [K]
m/V: Density ρ
Dimensionless numbers
Mach Number (Ratio of the velocity of the flow/object to the speed of sound)
Reynolds Number (laminar/turbulent)
—> Same Reynolds Number —> Physical similiarities of flows
Viscosity
—> Is to be assumed to be constant
Temperature dependence
Gases: High viscosity, high temp. (p = const.)
Liquids: Low viscosity, high temp. (p = const.)
Shear rate dependence
= measure of the rate at which neighboring layers of fluid move relative to each other
—> Channel flow: Maximum near the wall
Newtonian Fluid
Viscosity = constant
Water or air
Shear Thickening
Viscosity increasing —> by increasing shear rate
Cornstarch in water
Shear Thinning
Viscosity decreasing —> by increasing shear rate
Ketchup and paint
Rule of thumb Hydrostatics
Water column of 10 m —> pressure difference of 1 bar
Conservation Equations for 1 D stream filament theory
Mass conservation
—> Pipe with different cross sections
—> Continuity equation
If ρ (rho) = const.: V dot = v A = const. = v1 A1 = v2 A2
Energy conservation
—> Bernoulli’s equation (incrompressible, inviscid, steady flows)
With static pressure = p
With dynamic pressure = 1/2 ρ v²
Total pressure is dynamic pressure + static pressure
Measuring instruments
Prandtl Tube
—> Measure static and total pressure
—> Calculate dynamic pressure and velocits
Venturi Tube
—> Measure pressures and cross sectional areas
—> Calculate velocity
Basic equations of fluid flow
Important?
Flow past bodies - Steps
Boundary Layer
Type of flow
Flow Separation
Drag forces
Laminar flow: Smooth and steady flow, flow in one direction
Transition
Turbulent flow: Irregular and unsteady flow, flow with fluctuations
Flow around a wing
Area is chord length times span (width)
Flow around a cylinder
Flow past bodies - Flow separation
Last changed5 months ago