D Page view Read aloud T Add text V Dray 6. An oil with density of 900 kg/m³ and kinematic viscosity of 1.005 x 106 m/s, flows through a 0.6 cm tube diameter, 30 m long, at a flow rate of 0.34 Litre/min. The pipes is inclined 10° above the horizontal in the flow direction as shown in Figure below. Determine the pressure drop and the power required to overcome the energy losses.

Elements Of Electromagnetics
7th Edition
ISBN:9780190698614
Author:Sadiku, Matthew N. O.
Publisher:Sadiku, Matthew N. O.
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egram%20Desktop/Tutorial%205 Laminar%20and%20Turbulent%20flow%20in%20circular%20pipes.p=
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A Read aloud
T Add text
V Dra
6. An oil with density of 900 kg/m³ and kinematic viscosity of 1.005 x 106 m/s, flows through a 0.6
cm tube diameter, 30 m long, at a flow rate of 0.34 Litre/min. The pipes is inclined 10° above the
horizontal in the flow direction as shown in Figure below. Determine the pressure drop and the
power required to overcome the energy losses.
d = 6 cm
30 m
10°
7. An oil with density of 900 kg/m' and kinematic viscosity of 0.0002 m-/s, flows upward through an
inclined pipe. Assuming the flow is steady and laminar, determine the head loss due to the friction
Transcribed Image Text:egram%20Desktop/Tutorial%205 Laminar%20and%20Turbulent%20flow%20in%20circular%20pipes.p= (D Page view A Read aloud T Add text V Dra 6. An oil with density of 900 kg/m³ and kinematic viscosity of 1.005 x 106 m/s, flows through a 0.6 cm tube diameter, 30 m long, at a flow rate of 0.34 Litre/min. The pipes is inclined 10° above the horizontal in the flow direction as shown in Figure below. Determine the pressure drop and the power required to overcome the energy losses. d = 6 cm 30 m 10° 7. An oil with density of 900 kg/m' and kinematic viscosity of 0.0002 m-/s, flows upward through an inclined pipe. Assuming the flow is steady and laminar, determine the head loss due to the friction
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