Problem 3 Water is issued steadily from a pipe to the air with a diffuser as shown below. Gravity acts downward. The friction factor for the long pipe is f-0.0175. The large tank to the pipe entrance has a minor loss coefficient of K 0.5 and the diffuser loss coefficient is K-0.2. Ignore the minor loss from the exit to the air, Find the volumetric flow rate Q. Note that the velocity in the pipe differs from the velocity at the diffuser exit. Use p=998kg / m² u=1x10³ Newton-s/m². Also the friction factor is already provided so no iteration is required! 2 m d₁ = 3 cm, L= 2 m d₂=5 cm 15 diffuser
Problem 3 Water is issued steadily from a pipe to the air with a diffuser as shown below. Gravity acts downward. The friction factor for the long pipe is f-0.0175. The large tank to the pipe entrance has a minor loss coefficient of K 0.5 and the diffuser loss coefficient is K-0.2. Ignore the minor loss from the exit to the air, Find the volumetric flow rate Q. Note that the velocity in the pipe differs from the velocity at the diffuser exit. Use p=998kg / m² u=1x10³ Newton-s/m². Also the friction factor is already provided so no iteration is required! 2 m d₁ = 3 cm, L= 2 m d₂=5 cm 15 diffuser
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:Problem 3
Water is issued steadily from a pipe to the air with a diffuser as shown below. Gravity acts downward. The
friction factor for the long pipe is f-0.0175. The large tank to the pipe entrance has a minor loss
coefficient of K = 0.5 and the diffuser loss coefficient is K-0.2. Ignore the minor loss from the exit to
the air, Find the volumetric flow rate Q. Note that the velocity in the pipe differs from the velocity at the
diffuser exit. Use p=998kg/m³,4=1x10 Newton-s/m². Also the friction factor is already provided so no
iteration is required!
2 m
d₁ = 3 cm, L = 2 m
d₂=5 cm
air
15 diffuser
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