EBK THERMODYNAMICS: AN ENGINEERING APPR
EBK THERMODYNAMICS: AN ENGINEERING APPR
8th Edition
ISBN: 9780100257054
Author: CENGEL
Publisher: YUZU
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Chapter 2.8, Problem 121RP
To determine

The diameter of downstream channel and power produced by the wind mill

Expert Solution & Answer
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Answer to Problem 121RP

The diameter of downstream channel is 7.7658m_.

The magnitude of power produced by the wind mill is 3.98kW_.

Explanation of Solution

Write the expression the specific volume of the air.

v=RTP (I).

Here, specific volume of the air is v, gas constant is R, temperature of the air is T, and pressure of the air is P.

Use the continuity equation, equate velocity of air flow at rotor and wind channel downstream.

A1V1=A2V2 (II).

Here, area of cross section at rotor is A1, velocity of wind at rotor is V1, area of wind channel downstream is A2, velocity of wind at downstream channel is V2.

Write the expression for area in terms of diameter in equation (II).

πD124V1=πD224V2

D2=V1V2D1 (III).

Here, diameter of the rotor is D1 and diameter of downstream channel is D2.

Write the expression for the mass flow rate of wind mill.

m˙=A1V1v

m˙=πD12V14v (IV).

Here, mass flow rate is m˙.

Write the expression for the power produced by the wind mill.

W˙=m˙(V12V222) (V).

Here, power produced by the wind mill is

Conclusion:

Substitute 0.287kPam3/kgK for R, 20°C for T, and 100 kPa for P to find v in equation (I).

v=(0.287kPam3/kgK)(20+273.15)K100kPa=0.8413m3kg

Thus, specific volume of the air is 0.8413m3/kg.

Substitute 7m for D1, 8m/s for V1, and 6.5m/s for V2 to find D2 in equation (III).

D2=8m/s6.5m/s×7m=7.7658m

Thus, the diameter of downstream channel is 7.7658m_.

Substitute 7m for D1, 0.8413m3/kg for v, and 8m/s for V1 to find mass flow rate in equation (IV).

m˙=π(7m)2(8m/s)4×0.8413m3/kg=365.9352kgs=366kgs

Thus, mass flow rate is 366kg/s.

Substitute 366kg/s for m˙, 8m/s for V1, and 6.5m/s for V2 to find W˙ in equation (V).

W˙=366kg/s((8m/s)2(6.5m/s)22)=3,979.45kgm2s3(1kJ/kg1,000m2/s2)=3.979kJs3.98kW

Thus, power produced by the wind mill is 3.98kW_.

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Chapter 2 Solutions

EBK THERMODYNAMICS: AN ENGINEERING APPR

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