A centrifugal pump delivers 900 m3/hr of sea water of sp.gr.= 1.03 from a source wherethe water varies 2 m from high to low tide level. The pump centerline is located2.6 m above the surface of th water at high tide. The pump discharges into theatmospheric surface condenser, 3 m above the p centerline. Loss of head due to friction in the suction pipe is 0.8 m and that in the discharge side is 3m. Pump is directlycoupled to a 1750 rpm, 460 volts, 3 phase, 60 Hz. Calculate: a) total dynamic head b) pump theoretical power
A centrifugal pump delivers 900 m3/hr of sea water of sp.gr.= 1.03 from a source wherethe water varies 2 m from high to low tide level. The pump centerline is located2.6 m above the surface of th water at high tide. The pump discharges into theatmospheric surface condenser, 3 m above the p centerline. Loss of head due to friction in the suction pipe is 0.8 m and that in the discharge side is 3m. Pump is directlycoupled to a 1750 rpm, 460 volts, 3 phase, 60 Hz. Calculate: a) total dynamic head b) pump theoretical power
Chapter2: Loads On Structures
Section: Chapter Questions
Problem 1P
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![A centrifugal pump delivers 900 m3/hr of sea water of sp.gr.= 1.03 from a source wherethe water level
varies 2 m from high to low tide level. The pump centerline is located2.6 m above the surface of the
water at high tide. The pump discharges into theatmospheric surface condenser, 3 m above the pump
centerline. Loss of head due to friction in the suction pipe is 0.8 m and that in the discharge side is
3m. Pump is directlycoupled to a 1750 rpm, 460 volts, 3 phase, 60 Hz.
Calculate: a) total dynamic head
b) pump
theoretical power](/v2/_next/image?url=https%3A%2F%2Fcontent.bartleby.com%2Fqna-images%2Fquestion%2F86bd8db6-49c8-450b-8837-c47b62441d57%2Fa0ea0d72-b3d6-42b6-a90e-138f16d25ec2%2F8vi0td_processed.jpeg&w=3840&q=75)
Transcribed Image Text:A centrifugal pump delivers 900 m3/hr of sea water of sp.gr.= 1.03 from a source wherethe water level
varies 2 m from high to low tide level. The pump centerline is located2.6 m above the surface of the
water at high tide. The pump discharges into theatmospheric surface condenser, 3 m above the pump
centerline. Loss of head due to friction in the suction pipe is 0.8 m and that in the discharge side is
3m. Pump is directlycoupled to a 1750 rpm, 460 volts, 3 phase, 60 Hz.
Calculate: a) total dynamic head
b) pump
theoretical power
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