Fundamentals of Heat and Mass Transfer
Fundamentals of Heat and Mass Transfer
7th Edition
ISBN: 9780470501979
Author: Frank P. Incropera, David P. DeWitt, Theodore L. Bergman, Adrienne S. Lavine
Publisher: Wiley, John & Sons, Incorporated
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Chapter 8, Problem 8.1P

Fully developed conditions are known to exist for water flowing through a 25-nim-diameer tube at 0.01 kg/s and 27 ° C . What is the maximum velocity of the water in the tube? What is the pressure gradient associated with the flow?

Expert Solution & Answer
Check Mark
To determine

The maximum velocity of water inside the tube and pressure gradient along the flow.

Answer to Problem 8.1P

The maximum velocity of water inside the tube is 0.0408m/s and pressure gradient along the flow is 0.892Pa/m .

Explanation of Solution

Given:

The diameter of the tube is 25mm .

Mass flow rate of water is 0.01kg/s .

Concept used:

Write the expression for the average velocity of water flows through the pipe.

  um=4m˙ρπD2 ....... (1)

Here, um is the average velocity, m˙ is the mass flow rate of water, ρ is the density of water and D is the diameter of tube.

Write the expression for the maximum velocity.

  umax=2um ....... (2)

Here, umax is the maximum velocity.

Write the expression for the Reynolds number.

  Re=4m˙πDμ ....... (3)

Here, Re is the Reynolds number and μ is the viscosity of water.

Write the expression for the pressure gradient.

  dPdx=64ρum22ReD ....... (4)

Here, dPdx is the pressure gradient.

Calculation:

Substitute 0.01kg/s for m˙ , 998kg/m3 for ρ and 25mm for D in equation (1).

  um=4( 0.01)( 998)(π) ( 25mm( 1m 1000mm ) )2=0.04( 998)(π) ( 0.025 )2=0.0204m/s

Substitute 0.204m/s for um in equation (2).

  umax=2(0.0204)=0.0408m/s

Substitute 0.01kg/s for m˙ , 25mm for D and 855×106Pa.s for μ in equation (2).

  Re=4( 0.01)π( 25mm( 1m 1000mm ))( 855× 10 6 )=0.04× 106π( 0.025)( 855)=595.667

Substitute 998kg/m3 for ρ and 25mm for D , 0.0204m/s for um and 595.667 for Re in equation (3).

  dPdx=64( 998) ( 0.0204 )22( 595.667)( 25mm( 1m 1000mm ))=2658.09( 1191.334)( 0.025)=0.892Pa/m

Conclusion:

Thus, The maximum velocity of water inside the tube is 0.0408m/s and pressure gradient along the flow is 0.892Pa/m .

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Chapter 8 Solutions

Fundamentals of Heat and Mass Transfer

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