Losses in Piping school teaching equipment Fluid Mechanics Experiment Equipment

SR-HL102 Losses in Piping school teaching equipment Fluid Mechanics Experiment Equipment

Description

When flow passes through pipes, pressure losses occur due to the friction between the pipe wall and the water. The pressure loss is directly dependent on the surface roughness of the pipe inner wall, and thus on the material used. In addition, the pressure loss is affected by the flow velocity and the cross-sectional area being flowed through.

This unit makes it possible to study the pressure loss of incompressible fluids in fully flowed through straight pipe elements. The trainer is suitable for assessing how different materials and pipe diameters affect the flow. The pipe elements used are commercially standard components in heating and sanitary engineering. The clear panel is mounted on a sturdy, movable frame.

Four straight pipe elements are mounted on the panel. These can be selected individually by ball valves. The flow is adjusted using valves in the inflow and return and read on a rotameter.

The pressure measuring points in the pipe system are designed as annular chambers and are located between the beginning and end of the measuring sections, ensuring a precise pressure measurement. The sensors are connected in pairs to a differential pressure meter and the respective differential pressure read on the display.

Specification

investigation of friction-induced pressure losses in flow through pipes

pipe elements are commercially standard components in heating and sanitary engineering

clear panel mounted on a sturdy, movable frame

four measuring sections with different pipe cross-sections and materials

pipe sections can be selected via ball valves

water connections made using quick-release couplings in the inflow and return

flow can be adjusted via valves

flow measurement using rotameter

differential pressure measurement via differential pressure meter with display

Dimensions and weight

LxWxH: 1650x700x1850mm

Weight: approx. 92kg