A hydraulic vane pump running at 1800 rpm develops 2 L/s flow at 750 kPa. Volumetricefficiency is .85 and overall efficiency is 0.8. Determine the Theoretical Torque required, TT(N-m). (Hint: first calculate the mechanical efficiency and theoretical flow rate. Convert rpmto rad/s).O 9.41 N-m8.85 N-m9.35 N-m9.62 N-m8.80 N-m

The flow rate is Q=2 L/s=0.002 m3/s The pressure develop is P=750 kPa. The vane speed of the pump is…

A hydraulic vane pump running at 1800 rpm develops 2 L/s flow at 750 kPa. Volumetric efficiency is .85 and overall efficiency is 0.8. Determine the Theoretical Torque required, T₁ (N-m). (Hint: first calculate the mechanical efficiency and theoretical flow rate. Convert rpm to rad/s)

A hydraulic vane pump running at 1800 rpm develops 2 L/s flow at 750 kPa. Volumetric efficiency is .85 and overall efficiency is 0.8. Determine the Theoretical Torque required, T₁ (N-m). (Hint: first calculate the mechanical efficiency and theoretical flow rate. Convert rpm to rad/s)

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Applied Fluid Mechanics

A fluid is a substance that is continuously deformed by the application of shear stress. The rate of deformation of a fluid depends on its viscosity. The fluid tries to flow when it interacts with some other system.

Question

A hydraulic vane pump running at 1800 rpm develops 2 L/s flow at 750 kPa. Volumetric
efficiency is .85 and overall efficiency is 0.8. Determine the Theoretical Torque required, TT
(N-m). (Hint: first calculate the mechanical efficiency and theoretical flow rate. Convert rpm
to rad/s).
O 9.41 N-m
8.85 N-m
9.35 N-m
9.62 N-m
8.80 N-m

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