HM 153 Visualisation of different flows
In research and training, flow processes are often considered in simplified models, e.g. in pipe flows, open channel drainage processes or the incident flow of structures.
HM 153 can be used to visualise flow around bodies, pipe flows and flow phenomena in open channels. Various models are fixed in the flow section. The streamlines are made visible by using injected ink as a contrast medium. The flow section is illuminated from behind and has a transparent front plate.
Open-channel flow is demonstrated with two weirs. The downstream water level can be adjusted with the aid of another weir. Flow through is shown in three models with change in cross-section and in the model “pipe bundle”. Streamlines in flow around bodies are demonstrated on four drag bodies.
HM 153 includes a closed water circuit. Alternatively, the experimental unit can be operated by the laboratory supply.
- visualisation of streamlines
- illuminated flow section
- flow over weirs
- different models: drag bodies, weirs and changes in cross-section
Flow section: approx. 5L
Contrast medium: ink
Injection of the contrast medium
- 5 nozzles
Pump
- flow rate: 10L/min
- head: 5,7m
Weirs
- broad-crested
- sharp-crested
Drag body
- 2 cylinder cross-sections
- aerofoil, symmetrical
- aerofoil, asymmetrical
Change in cross-section / flow through
- gradual contraction / sudden enlargement
- sudden contraction / gradual enlargement
- sudden contraction / enlargement
- tube bundle
230V, 50Hz, 1 phase
230V, 60Hz, 1 phase; 120V, 60Hz, 1 phase
UL/CSA optional
- experimental unit for visualisation of various flow processes
- illuminated flow section with transparent front panel
- open-channel flow demonstrated on 2 weirs
- flow through demonstrated with 4 differently shaped models
- flow around solid bodies demonstrated on four drag bodies
- contrast medium: ink
- optional operation via laboratory supply or as closed water circuit
- streamlines when flowing around different solid drag bodies
- streamlines when flowing through different shaped models
- flow over different weirs