Thermodynamics: An Engineering Approach ( 9th International Edition ) ISBN:9781260092684
Thermodynamics: An Engineering Approach ( 9th International Edition ) ISBN:9781260092684
9th Edition
ISBN: 9781260048667
Author: Yunus A. Cengel Dr.; Michael A. Boles
Publisher: McGraw-Hill Education
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Chapter 2.8, Problem 56P

The steam requirements of a manufacturing facility are being met by a boiler whose rated heat input is 5.5 × 106 Btu/h. The combustion efficiency of the boiler is measured to be 0.7 by a handheld flue gas analyzer. After tuning up the boiler, the combustion efficiency rises to 0.8. The boiler operates 4200 h a year intermittently. Taking the unit cost of energy to be $13/106 Btu, determine the annual energy and cost savings as a result of tuning up the boiler.

Expert Solution & Answer
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To determine

The annual energy and cost savings.

Answer to Problem 56P

The annual energy and cost savings are 2.89×109Btu/yr_ and $37,570/yr_ respectively.

Explanation of Solution

Calculate the heat output of boiler.

Q˙out=Q˙in×ηfurnace (I)

Here, heat input of boiler is Q˙in and combustion efficiency is ηfurnace.

Re-write Equation (I) if the current rate of heat input to the boiler is Q˙in,current.

Write the equation for the rate of useful heat output of the boiler.

Q˙out=(Q˙inηfurnace)current (II)

Write the rate of heat input to the boiler after the tune up.

Q˙in,new=Q˙outηfurnace,new (III)

Write the rate of energy savings.

Q˙in,saved=Q˙in,currentQ˙in,new (IV)

Calculate the energy savings.

Energysavings=Q˙in,saved(t) (V)

Here, the operational hours is t.

Calculate the cost savings.

Costsavings=(Energysavings)(Unitcostof energy) (VI)

Conclusion:

Substitute 5.5×106Btu/h for Q˙in,current and 0.7 for (ηfurnace)current in Equation (II).

Q˙out=(5.5×106Btu/h)(0.7)=3.85×106Btu/h

Substitute 3.85×106Btu/h for Q˙out and 0.8 for ηfurnace,new in Equation (III).

Q˙in,new=3.85×106Btu/h0.8=4.81×106Btu/h

Substitute 5.5×106Btu/h for Q˙in,current and 4.81×106Btu/h for Q˙in,new in Equation (IV).

Q˙in,saved=5.5×106Btu/h4.81×106Btu/h=0.69×106Btu/h

Substitute 4200 h/yr for t and 0.69×106Btu/h for Q˙in,saved in Equation (V).

Energysavings=0.69×106Btu/h(4200h/yr)=2.89×109Btu/yr

Substitute 2.89×109Btu/yr for energy savings and $13/106Btu in Equation (VI).

Costsavings=(2.89×109Btu/yr)($13/106Btu)=$37,570/yr

Thus, the annual energy and cost savings are 2.89×109Btu/yr_ and $37,570/yr_ respectively.

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Chapter 2 Solutions

Thermodynamics: An Engineering Approach ( 9th International Edition ) ISBN:9781260092684

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