Brine (SG = 1.1, viscosity = 1.1cP) is pumped at a rate of 45 ft^3/min (ID = %3D 2.5in) from large open reservoir to the bottom of another open tank. The liquid level in the reservoir is maintained at 5.2ft, and the liquid leve in the reservoir and the bottom of the discharge tank are 18ft apart, vertically. Friction losses in the pipe amount to 10% of the elevation head. If 2.15 hp of power is required for the process, what is the expected liquid level in the receiving tank?
Brine (SG = 1.1, viscosity = 1.1cP) is pumped at a rate of 45 ft^3/min (ID = %3D 2.5in) from large open reservoir to the bottom of another open tank. The liquid level in the reservoir is maintained at 5.2ft, and the liquid leve in the reservoir and the bottom of the discharge tank are 18ft apart, vertically. Friction losses in the pipe amount to 10% of the elevation head. If 2.15 hp of power is required for the process, what is the expected liquid level in the receiving tank?
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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Transcribed Image Text:Brine (SG = 1.1, viscosity = 1.1cP) is pumped at a rate of 45 ft^3/min (ID =
2.5in) from large open reservoir to the bottom of another open tank.
The liquid level in the reservoir is maintained at 5.2ft, and the liquid level
in the reservoir and the bottom of the discharge tank are 18ft apart,
vertically. Friction losses in the pipe amount to 10% of the elevation
head. If 2.15 hp of power is required for the process, what is the
expected liquid level in the receiving tank?
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