Product Overview: The SB-TEK SB-VP-53 Continuity Equation Apparatus is developed to investigate flow rates at different cross-sectional areas and to demonstrate the continuity equation with high clarity. It allows learners and researchers to observe how changes in cross-section, flow area, and impeller characteristics influence flow velocity and conservation of mass. The unit offers intuitive experiment execution via a touch-screen HMI and provides complete network capability for remote monitoring and participation. Users can access real-time experiment data from up to ten external devices such as PCs, tablets, or smartphones via the local network. The apparatus supports automatic identification of accessories using RFID technology, ensuring correct software loading and configuration. The learning module includes theoretical fundamentals, device descriptions, guided experimental preparation, execution procedures, graphical representations of flow rates at various cross sections, and d
FEATURES:
Investigate flow rates at different cross-sectional areas
Intuitive experiment execution via touch screen (HMI)
Integrated router for control via end devices and screen mirroring on up to 10 external devices
Network capability for accessing ongoing experiments from external workstations
Automatic identification of accessories via RFID technology
Investigation of the continuity equation and conservation of mass.
Identification of influencing variables such as cross- sectional area, impeller pitch, bearing friction, and uniformity of flow.
Software specifically adapted to the accessories used.
Learning module with theoretical fundamentals and guided experiment preparation.
Execution of experiments with graphical representation of flow rates at different sections.
USB data transfer for external evaluation of measurements and screenshots.
Different user levels available.
Water supplied through the base module.
SPECIFICATION:
Visualization of the flow velocity.
Different cross-sectional areas determine the ratio of the flow velocity.
Two impellers with the same pitch for observing and measuring different flow velocities.
Impeller sped measured via inductive speed sensor.
Flow rate in the pipe section adjustable via base module.
Automatic identification of accessories via RFID technology and corresponding software.
Experiment execution and display of measured values via touch screen (HMI).
Network capability: access from up to 10 external workstations simultaneously.
Water supplied via base module.
TECHNICAL DATA:
Pipe section inlet: Ø inner 56 mm.
Pipe section outlet: Ø inner 40 mm.
Inductive speed measurement sensor with switch frequency 5000 Hz, L 60 mm, thread M8.
BIG IMPELLER: Built-in magnet pin. Ø outer 54 mm. Pitch 60 mm. Number of blades: 2. Cross section: 340 mm². Flow velocity up to approx. 0.11 m/s.
SMALL IMPELLER: Built-in magnet pin. Ø outer 38 mm. Pitch 60 mm. Number of blades: 2. Cross section: 200 mm². Flow velocity up to approx. 0.22 m/s.
MEASURING RANGES:
Indicated measuring range speed: 0-999 min?¹.
Indicated measuring range flow rate: 0-15 L/min
WEIGHT:
Max. 6.5 kg
Warranty: 01 Year.
