An oil with dynamic viscosity of 0.8 Pa.s and specific gravity of 0.9 is flowing through a horizontal pipe of 50 mm diameter. If the flow is a laminar flow, based on Table 1 and the setting given, determine : (i) flowrate of the oil; (ii) centerline velocity; (iii) power required to maintain the flow; (iv) drag force on the pipe; and (v) velocity and shear stress at 10 mm from the wall. 2200(kN/m2) = Pressure Different Pipe Length = 98(m)
An oil with dynamic viscosity of 0.8 Pa.s and specific gravity of 0.9 is flowing through a horizontal pipe of 50 mm diameter. If the flow is a laminar flow, based on Table 1 and the setting given, determine : (i) flowrate of the oil; (ii) centerline velocity; (iii) power required to maintain the flow; (iv) drag force on the pipe; and (v) velocity and shear stress at 10 mm from the wall. 2200(kN/m2) = Pressure Different Pipe Length = 98(m)
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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An oil with dynamic viscosity of 0.8 Pa.s and specific gravity of 0.9 is flowing
through a horizontal pipe of 50 mm diameter. If the flow is a laminar flow, based
on Table 1 and the setting given, determine :
(i) flowrate of the oil;
(ii) centerline velocity;
(iii) power required to maintain the flow;
(iv) drag force on the pipe; and
(v) velocity and shear stress at 10 mm from the wall.
2200(kN/m2) = Pressure Different
Pipe Length = 98(m)
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