Using steady-flow energy equation to calculate the value of power developed by the steam turbine.
Book: Applied Thermodynamics by T.D Eastop & McConkey, Chapter # 01: Introduction and the First Law of Thermodynamics Problem: 1.13: A turbine operating under steady-flow conditions receives steam at the following state: pressure 13.8 bar; specific volume 0.143 m3/kg, specific internal energy 2590 kJ/kg, velocity 30 m/s. The state of steam leaving the turbine is as follows: pressure 0.35 bar, specific volume 4.37 m3/kg, specific internal energy 2360 kJ/kg, velocity 90m/s. Heat is rejected to the surroundings at the rate of 0.25 kW and the rate of steam flow through the turbine is 0.38 kg/s. Calculate the power developed by the turbine.
Book: Applied Thermodynamics by T.D Eastop & McConkey, Chapter # 01: Introduction and the First Law of Thermodynamics Problem: 1.13: A turbine operating under steady-flow conditions receives steam at the following state: pressure 13.8 bar; specific volume 0.143 m3/kg, specific internal energy 2590 kJ/kg, velocity 30 m/s. The state of steam leaving the turbine is as follows: pressure 0.35 bar, specific volume 4.37 m3/kg, specific internal energy 2360 kJ/kg, velocity 90m/s. Heat is rejected to the surroundings at the rate of 0.25 kW and the rate of steam flow through the turbine is 0.38 kg/s. Calculate the power developed by the turbine.