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

10th Edition

ISBN: 9781119494966

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

Publisher: Wiley,

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Chapter 4, Problem 4.58P

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Mass flow rate at state 2.

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A shaft is loaded in bending and torsion such that Ma = 70 N·m, T₁ = 45 N · m, M = 55 N. m, and T = 35 N m. For the shaft, S₁ = 700 MPa and S = 560 MPa, and a fully corrected endurance limit of S₂ = 210 MPa is assumed. Let K = 2.2 and K = 1.8. With a Se design factor of 2.0 determine the minimum acceptable diameter of the shaft using the a) DE- Goodman b) DE-Morrow c) DE-Gerber d) DE-SWT

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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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