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ATBB Установка для аэродинамических испытаний
ИННОВАЦИОННЫЕ СИСТЕМЫ
The Aerodynamic Testing Bench, "ATBB", has two main components: a radial fan with speed control and a working section where the different accessories for the tests are fixed.
НОВОСТИ ПО ТЕМЕ
ОБЩЕЕ ОПИСАНИЕ
The Aerodynamic Testing Bench, "ATBB", has two main components: a radial fan with speed control and a working section where the different accessories for the tests are fixed.
The radial blower impels the air through an air intake pipe to a rectifier that stabilizes the air, eliminates the turbulences and makes the air flow that reaches the working section be homogeneous. The air leaves the rectifier by a nozzle, where its speed is accelerated, and it is injected into the working chamber.
Accessories that allow different experiments can be attached to the working section in a comfortable and simple way.
After the working section, the air is driven to an air outlet pipe.
There are up to 45 measuring points in which the pressure can be measured, both along the circuit and in the accessories. For pressure measurements the Manometer Panel. 16 Manometer tubes, "ATB/MB", is required. The manometer panel is connected to the pressure taps by flexible hoses fitted with quick-release couplings.
УПРАЖНЕНИЯ И ПРИМЕРЫ С ИНСТРУКЦИЯМИ
РУКОВОДСТВО ПО ПРАКТИЧЕСКИМ УПРАЖНЕНИЯМ ВКЛЮЧЕНО В РУКОВОДСТВО ПОЛЬЗОВАТЕЛЯ
ATB/BL. Model to Study the Boundary Layer:
- Properties of the boundary layer of the fluid when falling upon a flat plate.
- Influence of surface roughness on the formation of a boundary layer.
- Measurement of the flow speed with a Pitot tube.
ATB/DF. Model to Study the Drag Forces:
- Measurement of drag forces on bodies immersed in an air flow.
- Calculation of drag coefficients on bodies immersed in an air flow.
- Pressure distribution on a cylinder immersed in an air flow.
- Study of the conservation of momentum.
ATB/CE. Model to Study the Coanda Effect:
- Study of an air flow that follows the curvature of a surface and demonstration of the Coanda effect.
- Study of the operation of a flip-flop.
ATB/VS. Model to Visualize Streamlines:
- Visualization of streamlines by smoke injection.
- Visualization of air streamlines through a cylinder.
- Visualization of air streamlines through an orifice plate (different cross section).
- Visualization of air streamlines through an airfoil with adjustable angle of attack.
- Air flow separation.
ATB/BP. Model to Study Bernoulli’s Principle:
- Application of the continuity equation and Bernoulli’s principle.
- Calculation of the dynamic pressure and the flow velocity from the measured data using Bernoulli’s principle.
ATB/PDB. Pressure Distribution in a Pipe Bend:
- Study of the air flow development at a 90º pipe bend.
- Representation of the pressure distribution at a 90º pipe bend.
- Determination of the static pressure.
ATB/FJ. Model to Study a Free Jet:
- Study of the behavior of a free jet.
- Recording the pressure curve at the outlet of a parallel flow in stationary surroundings.
- Representation of velocity profiles at several distances along the jet and the development of the jet diffusion.
ATB/SS. Pressure Distribution in a Streamlined Shape:
- Study of the pressure distribution around a streamlined shape.
ДОПОЛНИТЕЛЬНОЕ ОБОРУДОВАНИЕ
8.6.- АЭРОДИНАМИКИ
TAS25/100C
The Computer Controlled Supersonic Wind Tunnel, "TAS25/100C", is an open wind tunnel for the study of the aerodynamic properties of different drag bodies subject to subsonic and supersonic flows. Air flows through a vacuum pump or blower...
8.6.- АЭРОДИНАМИКИ
TAS25/100C-3B
Сверхзвуковая аэродинамическая труба с компьютерным управлением (три вентилятора)
The Computer Controlled Supersonic Wind Tunnel (Three Blowers), "TAS25/100C-3B", is an open wind tunnel for the study of theaerodynamic properties of different drag bodies subject to subsonic and supersonic flows. Airflows through three vacuum...
8.6.- АЭРОДИНАМИКИ
TA50/250C
Аэродинамическая труба, 50 x 250 мм, управляемая ПК
The Computer Controlled Aerodynamic Tunnel, 50 x 250 mm, "TA50/250C", is a wind tunnel designed to study subsonic aerodynamics in a tunnel in open circuit and with incompressible subsonic flow. Air is drawn by a variable speed fan, computer...
8.6.- АЭРОДИНАМИКИ
TA50/250
Аэродинамическая труба, 50 x 250 мм
The Aerodynamic Tunnel, 50 x 250 mm, "TA50/250", is a wind tunnel designed to study subsonic aerodynamics in a tunnel in open circuit and with incompressible subsonic flow. Air is drawn by a variable speed fan located at the discharge end of the...
8.6.- АЭРОДИНАМИКИ
TA300/300C
Аэродинамический туннель с компьютерным управлением, 300 x 300 мм
The Computer Controlled Aerodynamic Tunnel, 300 x 300 mm, "TA300/300C", is a wind tunnel designed to study subsonic aerodynamics in a tunnel in open circuit and with incompressible subsonic flow. Air is drawn by a variable speed fan, computer...
8.6.- АЭРОДИНАМИКИ
TA300/300
Аэродинамический тоннель, 300 х 300 мм
The Aerodynamic Tunnel, 300 x 300 mm, "TA300/300", is a wind tunnel designed to study subsonic aerodynamics in a tunnel in open circuit and with incompressible subsonic flow. Air is drawn by a variable speed fan located at the discharge end of the...
8.6.- АЭРОДИНАМИКИ
TA610/915C
Аэродинамический Туннель, 610X915 мм, Управляемый компьютером (ПК)
Aerodynamics is the part of fluid mechanics that studies the motion of gases and the forces or reactions to which the bodies they interact with are subjected. Aerodynamics is not only important by itself but also as a complement to aeronautics....
8.6.- АЭРОДИНАМИКИ
TA1000/1000C
Computer Controlled Aerodynamic Tunnel, 1000X1000 mm
Aerodynamics is the part of fluid mechanics that studies the motion of gases and the forces or reactions to which the bodies they interact with are subjected. Aerodynamics is not only important by itself but also as a complement to aeronautics....
8.6.- АЭРОДИНАМИКИ
TA1200/1200C
Аэродинамический Туннель, 1200X1200 мм, Управляемый компьютером (ПК)
Aerodynamics is the part of fluid mechanics that studies the motion of gases and the forces or reactions to which the bodies they interact with are subjected. Aerodynamics is not only important by itself but also as a complement to aeronautics....
8.6.- АЭРОДИНАМИКИ
TACL2000/2000C
Computer Controlled Closed Aerodynamic Tunnel, 2000X2000 mm
Aerodynamics is the part of fluid mechanics that studies the motion of gases and the forces or reactions to which the bodies they interact with are subjected. Aerodynamics is not only important by itself but also as a complement to aeronautics....
8.4.- ВИЗУАЛИЗАЦИЯ ПОТОКА
TAVF180/100
Аэродинамическая труба для визуализации потока
The Flow Visualization Aerodynamic Tunnel, "TAVF180/100", consists of a vertical conduction in which an upward flow of air and smoke is induced, which passes through different models allowing to study the behavior of the flow around it. Thus it is...
8.6.- АЭРОДИНАМИКИ
TADV225/450
Wind Tunnel Flight Demonstration Unit
The Aerodynamic Tunnel for Flight Demonstration, "TADV225/450", consists of an open wind tunnel in whose working section the model of an aircraft with fixed wings is located. The aircraft is piloted by the user using controls similar to those of a...