Fundamentals of steady flow
In the field of steady flow, devices are particularly suited to teaching measurement of the flow course, pressure distribution and velocity distribution.
Measurement of flow profile
Measurement of laminar and turbulent flow.
Recording the trajectory of the water jet and discharge coefficients at different outlet velocities.
Fundamentals of water flow
Experiments on water flow in open flumes and in pipes, transparent design allows observation of the flow processes.
Principles of air flow
Recording the fan characteristice.
Electrical power consumption of a consumer.
Electronic total pressure sensor
Measurement of the velocity distribution in the intake tube on HM 240.
Pressure distribution on a cylinder
Cylinder in transverse incident flow; record pressure distribution in the wake of the cylinder in conjunction with HM 240.03.
Pressure losses in pipe elements
Measurement of pressure losses in straight pipe sections, in a 90° pipe bend, and in a 90° pipe angle.
Heat transfer at a cylinder in transverse flow
Investigation of heat transfer from a heated rod to an air flow.
Air flow experimental plant
Determining pressure loss and velocity profiles; different measuring objects.
Examination of the continuity equation and Bernoulli’s principle; representation of the pressure curve.
Measurement of boundary layers
Velocity distribution and boundary layer thickness within the boundary layer of a flat plate in longitudinal flow; vertically sliding Pitot tube.
For experiments from the fields of flow around bodies and steady incompressible flow.
Demonstration of the continuity equation and Bernoulli’s equation.
Flow in a pipe bend
Determination of the static pressure at 29 pressure measuring points.
Investigation of flow from nozzles.
Pipe friction for laminar / turbulent flow
Determining the critical Reynolds number.