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Computer Controlled Wind Tunnel Didactic Equipment Vocational Education Equipment Fluid Mechanics Lab Equipment

Item No.: C30
Computer Controlled Wind Tunnel Didactic Equipment Vocational Education Equipment Fluid Mechanics Lab Equipment
Description
C30 Computer Controlled Wind Tunnel Didactic Equipment Vocational Education Equipment Fluid Mechanics Lab Equipment

DESCRIPTION
The C30 – Computer Controlled Wind Tunnel enables the user to carry out advanced studies in the Aerodynamics fields including boundary layer experiments, flow visualisation, pressure distribution, study of turbulence and offering the possibility of developing self-design aerodynamics profiles to be tested.
The wind tunnel comprises outstanding features such as computer control, remote operation, datalogging and diagrams plotting in real time.
The system also benefits from clear visualisation of every model under test due to the architecture of the working section in transparent material and the compact design of all components.
TECHNICAL SPECIFICATIONS
A stand-alone computer controlled subsonic wind tunnel for conducting experiments in aerodynamics
The wind tunnel is mounted on a steel base on wheels for mobility
Working section of 310mm by 310mm and 660mm long
The unit operates as an open circuit system
Inverter controlled AC suction fan to drag the air flow through the working section
Accurate speed control up to 40m/s
The duct incorporates a honeycomb flow straightener to even the direction of flow
The working section incorporates three tappings on its top section to incorporate pitot tubes. These are located at the start of the working section, upstream and downstream of the model under test location
All the optional and self-built models are inserted through a circular hatch of 160mm diameter. Each of the accessories supplied are built into individual hatches which incorporate an angular scale, enabling the models to be manually rotated to known angles
Linear speed – 0-40m/s
Working section
Length: 600mm
Width: 310mm
Height: 310mm
Axial fan power – Approx. 4kW
Fan turning speed – 3000rpm
Measuring ranges
Manometer: 0-250mm H₂0
Wind speed: 0-40m/s
Angle of inclination: +/- 180°
Lift force: +/- 10N
Drag force: +/- 10N
Pitching moment: +/- 3N


EXPERIMENTAL CONTENT
Investigation of the development of the boundary layer on a flat plate by measurement of the total head distribution*
C30-11 Manometer Bank / C30-12 Electronic Manometer Bank
To convert a head measurement using a manometer to an equivalent pressure reading
To demonstrate the use of a static pressure reading to determine tunnel air velocity
C30-13 Lift and Drag Balance
To measures the lift and drag forces (aerodynamic loads)
C30-14 Pitot Static Tube
Static pressure, dynamic pressure and total pressure
To demonstrate the difference between Static pressure, Dynamic pressure and Total pressure and how Dynamic pressure can be used to determine air velocity
To show how velocity varies in the test section because of the velocity profile
C30-15 Wake Survey Rake
Comparison of drag for shapes of equal equatorial diameter
Visualisation of flow around different body shapes
Measurement of the wake profile behind different shapes
C30-16 /17-Asoft 3-Component Balance – armSOFT
To measure lift, drag and moment forces
C30-20 Lift and Drag Aerofoil
Lift and Drag forces on a symmetrical aerofoil at different angles of attack
To convert a head measurement using a manometer to an equivalent pressure reading
To convert head and pressure readings to alternative engineering units
To demonstrate the use of a static pressure reading to determine tunnel air velocity
C30-22 Drag Models
Drag forces on bluff and streamlined bodies
Comparison of drag for shapes of equal equatorial diameter
Visualisation of flow around different body shapes
Measurement of the wake profile behind different shapes (requires C30-15)
C30 Airplane Models, C30-35 Car Model
Visualise airflow over various aircraft at different angles of attack
Visualise airflow over a car
C30-30-01,02,03,04,06,07 Wing Models
Lift, Drag and Moment forces on a aircraft wing at different angles of attack
To convert a head measurement using a manometer to an equivalent pressure reading
To convert head and pressure readings to alternative engineering units
To demonstrate the use of a static pressure reading to determine tunnel air velocity
C30-30-02 Wing Model Type 2 NACA 633-618 (Requires C30-13 or C30-16/17)
C30-31 Aerofoil Model with Flap (Requires C30-13 or C30-16/17)
Effect of Lift, Drag and Moment forces on a aircraft wing with change of flap angle
To investigate the effects of control surfaces such as flaps, ailerons, elevator, or rudder
Influence of a flap
C30-42 Winglets Kit (Requires C30-13 or C30-16/17)
Wing Theory
Lift, Drag and Moment forces on a aircraft winglet at different angles of attack
Observation of eddies on winglets
C30-23 Pressure Cylinder), C30-18-01 Cylinder with Pressure Tapping for 3600 Drive
Flow around a cylinder
To investigate the variation in Static Head resulting from a change in cross-section area
The measurement of pressure distribution around a circular cylinder at different velocities (and Reynolds Number)
C30-21 Pressure Wing NACA 0015, C30-32 Pressure Wing NACA 54118 Profile, C30-33 Pressure Wing NACA 4415 Profile
Flow and pressure distribution around a symmetrical aerofoil at different angles of attack
To investigate the pressure distribution across the wake behind the wing
C30-24 Bernoulli Apparatus (requires C30-11 or C30-22)
Effect of change in cross-section and application of Bernoulli equation
To investigate the variation in Static Head resulting from a change in cross-sectional area
To investigate the Bernoulli equation (if C30-14 Pitot Static Tube is also available)
C30-25 Boundary Layer Plate (requires C30-11 or C30-22)
Laminar and Turbulent Boundary Layer Development
To measure the depth of the boundary layer on smooth and rough flat plates
C30-34 Spring Mounted Wing Model
Aeroelastic Flutter
*additional accessory’s required dependant on experiment