i. Explanation Given: Heat which is given to the system from the process 2-3 Q 2 − 3 = 800 kJ The change of internal energy from process 1-2 Δ E 1 − 2 = − 1200 kJ Work done by the system from the process 3-4 W 3 − 4 = − 200 kJ Work done by the system from the process 4-1 W 4 − 1 = 600 kJ The change of internal energy from process 4-1 Δ E 4 − 1 = 400 kJ Heat which is given to the system from the process 1-2 Q 1 − 2 = 0 kJ Heat supplied to the system from the process 3-4 Q 3 − 4 = − 200 kJ In the power cycle, the heat is converted into mechanical work. Most of the time, electric work is obtained in a power cycle. The value of change in internal energy is equal to the difference in heat that is given to the system and the amount of work done by the system in a power cycle. Δ E = Q − W Here, Δ E is the change in energy, Q is the heat that is given to the system, and W is the total amount of work that is done by the system. Calculation: For the process 1-2 the difference between internal energy − 1200 kJ and the amount of heat which is given to the system is 0 kJ . Put these values in the above formula to find the work done W 1 − 2 in the process 1-2. − 1200 kJ = 0 kJ − W W 1 − 2 = 1200 kJ For the process 3-4 the amount of work done is − 200 kJ and the value of heat which is given to the system is − 200 kJ . Put these values in the above formula to find the change in energy Δ E 3 − 4 during the process 3-4. Δ E 3 − 4 = − 200 kJ − ( − 200 kJ) Δ E 3 − 4 = 0 kJ For the process, 4-1 value of internal energy changed during the process is 400 kJ and the amount of work which is done is 600 kJ ii. To determine Calculate the value of thermal efficiency.

FUND OF ENG THERMODYN-WILEYPLUS NEXT GEN

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ISBN: 9781119840589

Author: MORAN

Publisher: WILEY

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Chapter 2, Problem 2.55P

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Find the missing table entries for the table data of a system which is undergoing a power cycle.

ii.

To determine

Calculate the value of thermal efficiency.

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Chapter 2, Problem 2.54P

Chapter 2, Problem 2.56P

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FUND OF ENG THERMODYN-WILEYPLUS NEXT GEN

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Find the missing table entries for the table data of a system which is undergoing a power cycle.

Solution Summary: The author explains that the value of change in internal energy is equal to the difference in heat that is given to a system and the amount of work done by the system.

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Find the missing table entries for the table data of a system which is undergoing a power cycle.

Calculate the value of thermal efficiency.

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Chapter 2 Solutions