Thermodynamics: An Engineering Approach
Thermodynamics: An Engineering Approach
9th Edition
ISBN: 9781259822674
Author: Yunus A. Cengel Dr., Michael A. Boles
Publisher: McGraw-Hill Education
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Chapter 2.8, Problem 124RP
To determine

The power required to move car through the air.

The area of the effective flow channel behind the car.

Expert Solution & Answer
Check Mark

Answer to Problem 124RP

The power required to move car through the air is 4.41kW_.

The area of the effective flow channel behind the car is 3.29m2_.

Explanation of Solution

Convert the absolute pressure of the air from mm Hg to kPa.

P=(700mmHg)(0.1333kPa1mmHg)=93.31kPa

Write the specific volume of the air.

ν=RTP (I)

Here, gas constant is R and temperature while traveling a car at 90 km/h is T.

Write the mass flow ate through the control volume.

m˙=A1V1ν (II)

Here, the area and velocity at section 1 is A1 and V1 respectively.

Write the power required to move car through the air.

W˙=m˙(V12V22)2 (III)

Calculate the outlet area of the effective flow channel behind the car.

A2=m˙νV2 (IV)

Conclusion:

Substitute 0.287kPam3kgK for R, 20°C for T, and 93.31 kPa for P in Equation (I).

ν=(0.287kPam3kgK)20°C93.31kPa=(0.287kPam3kgK)(20+273)K93.31kPa=0.9012m3/kg

Substitute 3m2 for A1, 90 km/hr for V1, and 0.9012m3/kg for ν in Equation (II).

m˙=(3m2)90km/hr0.9012m3/kg=(3m2)(90km×1000m1kmhr×3600shr)0.9012m3/kg=83.22kg/s

Substitute 83.22 kg/s for m˙, 90 km/hr for V1, and 82 km/hr for V2 in Equation (III).

W˙=(83.22kg/s)((90kmhr)2(82kmhr)2)2=83.22kg/s[(90km×1000mkmhr×3600s1hr)2(82km×1000mkmhr×3600s1hr)2]2=83.22kg/s(625518.8)m2/s22=4417.852kgm2s3×1W×1kW1000Wkgm2s3

=4.41kW

Thus, the power required to move car through the air is 4.41kW_.

Substitute 83.22kg/s for m˙, 0.9012m3/kg for ν, and 82 km/hr for V2 in Equation (IV).

A2=83.22kg/s(0.9012m3/kg)82km/hr=83.22kg/s(0.9012m3/kg)82km×1000m1kmhr×3600s1hr=3.29m2

Thus, the area of the effective flow channel behind the car is 3.29m2_.

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Chapter 2 Solutions

Thermodynamics: An Engineering Approach

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