Measure the diameter of the pipe next to it, which goes from the discharge nozzle of a pump to the raised reservoir. The following data are known: • L1 = 4 m; L2 = 88 m; L3 = 75 m; L4 = 7 m. • • Maximum flow rate Q = 200 m³/h. Elevation elevations: Pump nozzle (H1) = 0.85 m Tank nozzle (H2) = 13.70 m Pump outlet pressure for the flow rate Q considered: P1 = 45 psig = 316 KPa. Maximum height of the liquid in the reservoir above point 2: Hr = 9 m. Maximum reservoir pressure: Pr = 10 psig = 70.3 KPa Specific weight of liquid: y = 9.5 N/dm³ Kinematic viscosity: v = 550 cks

Measure the diameter of the pipe next to it, which goes from the discharge nozzle of a pump to the raised reservoir. The following data are known: • L1 = 4 m; L2 = 88 m; L3 = 75 m; L4 = 7 m. • • Maximum flow rate Q = 200 m³/h. Elevation elevations: Pump nozzle (H1) = 0.85 m Tank nozzle (H2) = 13.70 m Pump outlet pressure for the flow rate Q considered: P1 = 45 psig = 316 KPa. Maximum height of the liquid in the reservoir above point 2: Hr = 9 m. Maximum reservoir pressure: Pr = 10 psig = 70.3 KPa Specific weight of liquid: y = 9.5 N/dm³ Kinematic viscosity: v = 550 cks

Elements Of Electromagnetics

7th Edition

ISBN:9780190698614

Author:Sadiku, Matthew N. O.

Publisher:Sadiku, Matthew N. O.

ChapterMA: Math Assessment

Section: Chapter Questions

Problem 1.1MA

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