11.23 Chemical, civil, and mechanical engineers must often determine the power required to pump a fluid through a series of pipes. To do so, we must first determine a friction factor. If the fluid flow is turbulent and the pipes are smooth, the friction factor can be determined as to repay 1.1513/vf = In (Revf/2.51) In this equation f represents the friction factor, a positive value that does not exceed 0.1, and Re represents the Reynolds number, which is a function of the fluid properties, the pipe diameter, and the nominal fluid velocity. The DV= Reynolds number increases with increasing fluid velocity. The flow be- comes turbulent at higher velocities, when the Reynolds number exceeds approximately 3000. Hence the above equation is valid only when Re exceeds 3000. Determine the values of the friction factor corresponding to Reynolds numbers of 5000, 12,000, and 20,000. Does the friction factor increase or decrease as the Reynolds number increases?

11.23 Chemical, civil, and mechanical engineers must often determine the power required to pump a fluid through a series of pipes. To do so, we must first determine a friction factor. If the fluid flow is turbulent and the pipes are smooth, the friction factor can be determined as to repay 1.1513/vf = In (Revf/2.51) In this equation f represents the friction factor, a positive value that does not exceed 0.1, and Re represents the Reynolds number, which is a function of the fluid properties, the pipe diameter, and the nominal fluid velocity. The DV= Reynolds number increases with increasing fluid velocity. The flow be- comes turbulent at higher velocities, when the Reynolds number exceeds approximately 3000. Hence the above equation is valid only when Re exceeds 3000. Determine the values of the friction factor corresponding to Reynolds numbers of 5000, 12,000, and 20,000. Does the friction factor increase or decrease as the Reynolds number increases?

Algebra & Trigonometry with Analytic Geometry

13th Edition

ISBN:9781133382119

Author:Swokowski

Publisher:Swokowski

Chapter4: Polynomial And Rational Functions

Section: Chapter Questions

Problem 5T

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ER 11O IV
11.23 Chemical, civil, and mechanical engineers must often determine the power
required to pump a fluid through a series of pipes. To do so, we must first
determine a friction factor. If the fluid flow is turbulent and the pipes are
smooth, the friction factor can be determined as
pay
1.1513/vf = In (ReVf/2.51)
is the
In this equationf represents the friction factor, a positive value that does not
exceed 0.1, and Re represents the Reynolds number, which is a function of
the fluid properties, the pipe diameter, and the nominal fluid velocity. The
DV = Reynolds number increases with increasing fluid velocity. The flow be-
comes turbulent at higher velocities, when the Reynolds number exceeds
approximately 3000. Hence the above equation is valid only when Re
exceeds 3000.
Determine the values of the friction factor corresponding to Reynolds
numbers of 5000, 12,000, and 20,000. Does the friction factor increase or
decrease as the Reynolds number increases?
ni nwoda

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