(b) The Figure below shows a Rotor-Stator assembly in an axial flow pump. Rotor Stator rW1 V₁. Vout The volumetric flow-rate through the pump is 0.4 m³/s, the average open cross- sectional area through the impellers if 0.06 m², and the impeller blades rotate at 500 rpm. At a radius r=25cm: i. draw the velocity diagram at the leading edge of the rotor. ii. compute the rotor leading edge blade angle. النا
(b) The Figure below shows a Rotor-Stator assembly in an axial flow pump. Rotor Stator rW1 V₁. Vout The volumetric flow-rate through the pump is 0.4 m³/s, the average open cross- sectional area through the impellers if 0.06 m², and the impeller blades rotate at 500 rpm. At a radius r=25cm: i. draw the velocity diagram at the leading edge of the rotor. ii. compute the rotor leading edge blade angle. النا
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![hand written plzz i'll give u upvote
(b) The Figure below shows a Rotor-Stator assembly in an axial flow
pump.
Rotor
Stator
Vin
Vout
The volumetric flow-rate through the pump is 0.4 m³/s, the average open cross-
sectional area through the impellers if 0.06 m², and the impeller blades rotate at 500
rpm. At a radius r=25cm:
i.
draw the velocity diagram at the leading edge of the rotor.
ii.
compute the rotor leading edge blade angle.
النا
الدا](/v2/_next/image?url=https%3A%2F%2Fcontent.bartleby.com%2Fqna-images%2Fquestion%2F6c8636bf-9e34-4ae2-934f-048fd8e635cd%2Fbfaf4e53-cd68-43c8-8a06-c57c82615518%2Fn3ajskp_processed.jpeg&w=3840&q=75)
Transcribed Image Text:hand written plzz i'll give u upvote
(b) The Figure below shows a Rotor-Stator assembly in an axial flow
pump.
Rotor
Stator
Vin
Vout
The volumetric flow-rate through the pump is 0.4 m³/s, the average open cross-
sectional area through the impellers if 0.06 m², and the impeller blades rotate at 500
rpm. At a radius r=25cm:
i.
draw the velocity diagram at the leading edge of the rotor.
ii.
compute the rotor leading edge blade angle.
النا
الدا
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