Answer to Question #296754 in Mechanical Engineering for Harsh

Question #296754

A turbine operating under steady flow conditions receives steam at the


following state : pressure 13.8 bar ; specific volume 0.143 m3/kg ;


internal energy 2590 kJ/kg ; velocity 30 m/s. The state of the steam


leaving the turbine is : pressure 0.35 bar ; specific volume 4.37 m3/kg


; internal energy 2360


kJ/kg ; velocity 90 m/s. Heat is lost to the surroundings at the rate of


0.25 kJ/s. If the rate of steam flow is 0.38 kg/s, what is the power


developed by the turbine ?

1
Expert's answer
2022-02-15T00:21:01-0500

Solution;

Apply the steady flow energy equation;

"\\dot{m}(h_1+\\frac{c_1^2}{2})-Q=\\dot{m}(h_2+\\frac{c_2^2}{2})+W"

But;

"h=u+PV"

"W=\\dot{m}[(u_1-u_2)+(P_1v_1-P_2v_2)+(\\frac{c_1^2-c_2^2}{2})]-Q"

By direct substitution of values;

"W=0.38[(2590-2360)+(13.8\u00d70.143-0.35\u00d74.37)\u00d710^5+(\\frac{30^2-90^2}{2})]-0.25kW"

"W=0.38[230+(197.34-152.95)-3.6]-0.25"

"W=102.9-0.25=102.65kW"






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