CENGEL'S 9TH EDITION OF THERMODYNAMICS:
CENGEL'S 9TH EDITION OF THERMODYNAMICS:
9th Edition
ISBN: 9781260917055
Author: CENGEL
Publisher: MCG
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Chapter 2.8, Problem 101P

A 1000-W iron is left on the ironing board with its base exposed to the air at 23°C. The convection heat transfer coefficient between the base surface and the surrounding air is 20 W/m2·°C. If the base has an emissivity of 0.4 and a surface area of 0.02 m2, determine the temperature of the base of the iron.

Expert Solution & Answer
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To determine

The temperature of the base of the iron.

Answer to Problem 101P

The temperature of the base of the iron is 833°C_.

Explanation of Solution

Since the 1000 W iron is left on the ironing board, so it is supplying energy to the surooundings by convection and radiation heat transfer.

Write the equation of the total rate of heat transfer.

Q˙total=Q˙conv+Q˙rad (I)

Here, the rate of heat transfer by convection and radiation are Q˙conv and Q˙rad respectively.

Calculate the rate of heat transfer by convection.

Q˙conv=hAΔT=hA(TsTo) (II)

Here, change in the temperature is ΔT, surface temperature is TS, final temperature is To, the convection heat transfer coefficient is h, and area of an iron base is A.

Calculate the rate of heat transfer by radiation.

Q˙rad=εσA(Ts4To4) (III)

Here, emissivity of the base surface is ε and Stefan-Bolzmann constant is σ.

Conclusion:

Substitute 1000 W for Q˙total in Equation (I).

1000W=Q˙conv+Q˙rad (IV)

Substitute 20W/m2°C for h and 23°C for To in Equation (II).

Q˙conv=20W/m2°C(0.02m2)(Ts23°C)=20W(0.02)(Ts(23+273)K)=0.4(Ts296K)W

Substitute 5.67×108W/m2K4 for σ, 0.02m2 for A, 23°C for To, and 0.4 for ε in Equation (III).

Q˙rad=0.4(5.67×108W/m2K4)(0.02m2)((Ts)4(23°C)4)=0.4(5.67×108W/K4)0.02((Ts)4(23+273K)4)=0.04536×108(Ts4(296K)4)

Substitute 0.4(Ts296K)W for Q˙conv and 0.04536×108(Ts4(296K)4) for Q˙rad in Equation (IV).

1000W=0.4(Ts296K)W+0.04536×108(Ts4(296K)4) (V)

Solve equation (V) using hit and trial method as in Table (1).

Ts(K)Equation (V)
900535.72
1000731.71
1100982.23
1106999.242
12001298.70
13001693.64

From Table (1), it is shown that at the value of 999.242, equation (V) right side is equal to the left side value of 1000 W. Therefore, the temperature at value of 999.242 is 1106 K.

Convert the unit of temperature, Ts from Kelvin to degree celcius.

Ts=1106K=(1106273)°C=833°C

Thus, the temperature of the base of the iron is 833°C_.

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