Methanol at a temperature of 30°C flows in a horizontal brass pipe of 3 cm diameter with a flow rate of 0.001521 m³/s. Calculate the pressure drop, head loss and required pumping power in the flow of 100 m of pipe. For methanol at 20°C, the density is: 779.1 kg/m³ and the kinematic viscosity: 6.531x10-7 m2/s.
Methanol at a temperature of 30°C flows in a horizontal brass pipe of 3 cm diameter with a flow rate of 0.001521 m³/s. Calculate the pressure drop, head loss and required pumping power in the flow of 100 m of pipe. For methanol at 20°C, the density is: 779.1 kg/m³ and the kinematic viscosity: 6.531x10-7 m2/s.
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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Methanol at a temperature of 30°C flows in a horizontal brass pipe of 3 cm diameter with a flow rate of 0.001521 m³/s. Calculate the pressure drop, head loss and required pumping power in the flow of 100 m of pipe. For methanol at 20°C, the density is: 779.1 kg/m³ and the kinematic viscosity: 6.531x10-7 m2/s.
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