Explanation Given: Mass flow rate at state 1 is 0.025 kg/s . Pressure of air at state 1 is 350 kPa . Temperature of air at state 1 is 150°C . Pressure of air at state 2is 450 kPa . Temperature of air at state 2is 15°C . Pressure of air at state 3is 100 kPa . Temperature of air at state 3is − 40°C . Heat rejected to surroundings is 1 kW . Power produced is 4 kW . Concept used: Write the expression for mass flow rate due to conservation of mass. m ˙ 1 + m ˙ 2 = m ˙ 3 ..... (1) Here, m ˙ 1 is the Mass flow rate at state 1, m ˙ 2 is the Mass flow rate at state 2 and m ˙ 3 is the Mass flow rate at state 3. Write the expression for energy conservation for control volume. m ˙ 1 h 1 + m ˙ 2 h 2 = m ˙ 3 h 3 + Q ˙ l o s s + W ˙ Here, h 1 is the specific enthalpy at state 1, h 2 is the specific enthalpy at state 2, h 3 is the specific enthalpy at state 3, Q ˙ l o s s is the heat ejected to surroundings and W ˙ is the power produced. Substitute C p T 1 for h 1 , C p T 2 for h 2 and C p T 3 for h 3 in above expression. m ˙ 1 C p T 1 + m ˙ 2 C p T 2 = m ˙ 3 C p T 2 + Q ˙ l o s s + W ˙ ..... (2) Here, T 1 is the temperature of air at state 1, T 2 is the temperature of air at state 2 and T 3 is the temperature of air at state 3

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ISBN: 9781119494966

Author: Borgnakke, C. (claus), Sonntag, Richard Edwin, Author.

Publisher: Wiley,

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Basic Thermodynamic Processes

The word 'thermodynamics' can be divided into two words, 'thermo' and 'dynamics'. The word thermo deals with the heat and thermal phenomenon, whereas dynamics deals with forces or external agent that drives the heat flow or aids in the motion of heat.

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Mass flow rate at state 2.

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Mass flow rate at state 2.

Solution Summary: The author explains the expression for mass flow rate due to conservation of mass.

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