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Fluid Mechanics Lab Equipment
Home > Fluid Mechanics Lab Equipment > Francis Turbine Hydrodynamics Laboratory Educational Equipment
Francis Turbine Hydrodynamics Laboratory Educational Equipment
Francis Turbine Hydrodynamics Laboratory Educational Equipment

Francis Turbine Hydrodynamics Laboratory Educational Equipment

Item No.: H18
H18 Francis Turbine Hydrodynamics Laboratory Educational Equipment
INQUIRY
Description
H18 Francis Turbine Hydrodynamics Laboratory Educational Equipment

FRANCIS TURBINE
The Francis Turbine is a laboratory-scale reaction turbine for use with Digital Hydraulic Bench (H1F, available separately).
The turbine has a sturdy base which sits on the top of the hydraulic bench. The turbine connects to the pumped supply of the hydraulic bench. The bench measures the flow rate. A mechanical gauge measures the inlet pressure to the turbine. Adjustable guide vanes in the turbine alter the flow rate and direction of flow to the impeller (runner) of the turbine. The end of the turbine outlet tube (draft) is in the open-water channel of the hydraulic bench. Included with the turbine is a weir plate to create a shallow reservoir in the water channel of the bench. This ensures that water covers the end of the draft during tests. A band brake with spring balances measures the torque at the turbine shaft. A stroboscope with speed display (ST1, available separately) or an optical tachometer (OT1, available separately) can measure the speed of the turbine. The stroboscope can also ‘freeze’ the image of the turbine and water flow to improve students’ understanding of the turbine.

Students test the turbine at different flow rates, loads and guide vane settings. They use the flow, torque, pressure and speed measurements to calculate hydraulic power input and mechanical (shaft) power at the turbine. They use these to create performance curves for the turbine.
Hydraulics data management system
The HDMS is a complementary software tool designed to help students accurately record data from experiments associated with this apparatus. The software is intuitive and easy to use, with clear and convenient data display options, enabling students to run automatic calculations and export charts and results for further investigation.
LEARNING OUTCOMES
• Efficiency of a Francis turbine
• Performance of a Francis turbine at different flow rates
• The effect of different guide vane settings on turbine performance
Eva Wu
Eva Wu