Aerodynamic Trainer Model AT 010
Aerodynamic Trainer Model AT 010
Sci-tech Aerodynamic Trainer Model AT 010 offers – along with its accessories – typical experiments from the field of flow around, incident flow and flow through models, as well as further experiments in the field of steady incompressible flow.
Experiments
Together with appropriate accessories: experiments from the field of flow around bodies
– velocity measurement of flows with Pitot tube
– boundary layer analysis on a flat plate with flow along the plate
– drag of bodies
– demonstration of the Coanda effect
– visualization of streamlines
Together with appropriate accessories: experiments from the field of steady incompressible flow
– velocity measurement of flows with Pitot tube and Pitot static tube
– free jets
– flow in a pipe elbow
– proof of Bernoulli’s principle
| Size: | 800mmcm x 500mmcm x 1250mmcm (LxWxH) |
| Weight: | 70 kg |
Item Description
Aerodynamics describes the behavior of bodies during flow around or through bodies with a compressible fluid. The purpose of experiments in aerodynamics is familiarization with and optimization of drag and the flow field around a body. This knowledge has a significant influence on the development of means of transport (vehicles, ships, aircraft) and in architecture (skyscrapers, towers and bridges).
Sci-tech Aerodynamics Trainer Model AT 010 offers – along with its accessories – typical experiments from the field of flow around, incident flow and flow through models, as well as further experiments in the field of steady incompressible flow.
The trainer includes a radial fan, which can be used to generate flow velocities up to 40m/s. The speed is infinitely adjustable by using a frequency converter. A stabilization tank with flow straightener ensures a consistent, low-turbulence and reproducible flow in the measuring section. A carefully shaped nozzle provides a largely homogeneous velocity distribution of the air flow. The accessory is attached using quick release fasteners and can be interchanged quickly and easily. Measuring points along the measuring section allow pressure and velocity measurements to be taken. The tube manometers are used to show the pressures clearly.
The well-structured instructional material sets out the fundamentals and provides a step-by-step guide through the experiments.
Technical Specifications
[1] aerodynamics experiments in the fields of flow around, incident flow and flow through models, as well as further experiments in the field of steady incompressible flow.
[2] vertical measuring section with flow straightener and nozzle
[3] radial fan infinitely variable via frequency converter
[4] thermometer for measuring air temperature
[5] accessory securely attached to HM 225 with quick release fasteners
[6] 16 tube manometers for displaying pressures
[7] accessories for the field of flow around bodies:
Boundary Layers
Drag Forces
Coanda Effect
Visualisation of Streamlines
[8] accessories for the field of steady incompressible flow:
Bernoulli’s principle
Flow in a pipe elbow
Free Jets
Technical Specifications
Radial fan
– power consumption: 0,37kW
– max. flow rate: 15m³/min
– nozzle exit cross-section: 50x100mm
– max. flow velocity at the nozzle exit: 40m/s
Attachments:
Boundary Layers Attachment Model AT 010BL
Bernoulli’s Principle Attachment Model AT 010BP
Drag Forces Attachment Model AT 010DG
Flow in a Pipe Bend Model AT 010FPB
Coanda Effect Attachment Model AT 010CE
Free Jet Attachment Model AT 010FJ
Visualization of Streamlines Attachment Model AT 010VS
Model Number
AT 010
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