Fundamentals Of Thermal-fluid Sciences In Si Units
Fundamentals Of Thermal-fluid Sciences In Si Units
5th Edition
ISBN: 9789814720953
Author: Yunus Cengel, Robert Turner, John Cimbala
Publisher: McGraw-Hill Education
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Chapter 2, Problem 64P
To determine

The area ratio of A2/A1.

Expert Solution & Answer
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Explanation of Solution

Given:

Specific gravity of the brine (SGbr) is 1.1.

Specific gravity of the mercury (SGHg) is 13.56.

Change in differential brine column height (Δhbr) is 5mm.

Density of the water (ρw) is 1000kg/m3.

Acceleration due to gravity is (g)9.81m/s2.

Calculation:

Write the expression for pressure balance in U-tube manometer before the change in pressure of air.

  PA1+ρwghw+ρHgghHg,1+ρbrghbr,1=PB        (I)

Here, pressure at area 1 is PA1, column height of the water is hw, density of mercury is ρHg, column height of the mercury at area 1 is hHg,1, density of brine is ρbr, column height of the brine at area 1 is hbr,1 and pressure at brine pipe is PB.

Write the expression for pressure balance in U-tube manometer after the change in pressure of air.

  PA2+ρwghw+ρHgghHg,2+ρbrghbr,2=PB        (II)

Here, pressure at area 2 is PA2, column height of the mercury at area 2 is hHg,2 and column height of the brine at area 2 is hbr,2.

Simplify Equations (I) and (II).

  PA1PA2+ρHggΔhHgρbrgΔhbr=0PA1PA2ρwg=SGHgΔhHgSGbrΔhbr

Here, change in differential mercury column height is ΔhHg.

Write the expression for the change in differential mercury column height.

  ΔhHg=ΔhHg,right+ΔhHg,rleft=Δhbr+ΔhbrA2/A1=Δhbr(1+A2/A1)

Here, area 1 is A1 and area 2 is A2.

Calculate area ratio of A2/A1.

  PA1PA2ρwg=SGHgΔhHgSGbrΔhbr=SGHg[Δhbr(1+A2/A1)]SGbrΔhbr

  A2/A1=PA1PA2ρwg+SGbrΔhbrSGHgΔhbrA2/A1=[0.7kPa0kPa(1000kg/m3)(9.81m/s2)]+(1.1×5mm)(13.56)(5mm)1

  A2/A1=[(0.7kPa)(1000N/m21kPa)(1kg/ms21N/m2)(1000kg/m3)(9.81m/s2)]+(1.1×0.005m)(13.56)(0.005m)1=(0.0703156m)+(0.0055m)0.0678m1=1.133561=0.133560.134

Thus, the area ratio of A2/A1 is 0.134_.

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Chapter 2 Solutions

Fundamentals Of Thermal-fluid Sciences In Si Units

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