(a) Explanation Write the expression for the turbine work transfer. c p ( T 2 − T 1 ) = − W ˙ c v m ˙ T 2 = T 1 − W ˙ c v m ˙ c p (I) Here, the rate of the work transfer is W ˙ c v , the temperature at inlet is T 1 , the temperature at exit is T 2 the mass flow rate is m ˙ and the specific heat at constant pressure is c p . Write the expression for the specific heat at constant pressure. c p = 5 2 R (II) Here, the characteristic gas constant is R . Conclusion: Convert the inlet temperature from degree Celsius to kelvin. T 1 = 1000 ° C = ( 1000 ° C + 273 ) K = 1273 K Substitute 0 (b) To determine The exergy destruction rate of the turbine. (c) To determine The exergetic efficiency of the turbine.

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ISBN: 9781119391630

Author: MORAN

Publisher: WILEY

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Chapter 7.7, Problem 95P

(a)

To determine

The temperature of the argon at the turbine exit.

(b)

To determine

The exergy destruction rate of the turbine.

(c)

To determine

The exergetic efficiency of the turbine.

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Chapter 7.7, Problem 94P

Chapter 7.7, Problem 96P

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