3. . In a differential pressure flow meter, determine the velocity at the outlet for the given technicalspecification.The density of the liquid flowing through the pipeline is 997 kg/m³, Pressure at inlet is 10 Ib/ft2, pressure at outlet is8 Ib/ft2 and cross sectional area of the orifice is 0.2512 m. Note: Ratio of meter diameter to pipe diameter is 0.5 anddischarge coefficient is 0.61. Also, find the differential pressure and flow rate.

Differential pressure meters work on the standard to some degree discouraging the stream in a line.…

3. . In a differential pressure flow meter, determine the velocity at the outlet for the given technical specification. The density of the liquid flowing through the pipeline is 997 kg/m³, Pressure at inlet is 10 Ib/ft2, pressure at outlet is 8 lb/ft2 and cross sectional area of the orifice is 0.2512 m. Note: Ratio of meter diameter to pipe diameter is 0.5 and discharge coefficient is 0.61. Also, find the differential pressure and flow rate.

3. . In a differential pressure flow meter, determine the velocity at the outlet for the given technical specification. The density of the liquid flowing through the pipeline is 997 kg/m³, Pressure at inlet is 10 Ib/ft2, pressure at outlet is 8 lb/ft2 and cross sectional area of the orifice is 0.2512 m. Note: Ratio of meter diameter to pipe diameter is 0.5 and discharge coefficient is 0.61. Also, find the differential pressure and flow rate.

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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