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please answer both questions velocity is 240 m/s. The turbine delivers shaft work at a rate of 42.5 kW. The heat loss from the turbine
please answer both questions 
velocity is 240 m/s. The turbine delivers shaft work at a rate of 42.5 kW. The heat loss from the turbine is 8.9 kW. Calculate the specific enthalpy change associated with this process. (Do the COMPLETE analysis, including kinetic and potential energy changes.) Consider the simple steam plant shown below and the data. The working fluid moves through the plant at a rate of 4500 kg/h. Answer the following questions. Assumptions: Impact of potential and kinetic energy is negligible. Process in pump and turbine is adiabatic. a). Find the heat transfer (loss) in the piping between the boiler and turbine. b). Find the turbine work c). Find the heat transfer in the condenser. d). Find the heat transfer in the boiler. Location Leaving Boiler Entering Turbine Leaving turbine, entering condenser Leaving condenser, entering pump Pump work is 7 kJ/kg Pressure 4.0 MPaa 3.0 MPaa 100 kPaa 100 kPaa Temperature or Quality 350 C 300 C x-100% X-0% Boiler Turbine Condenser Pump Step by Step Solution
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Chemical Process Safety Fundamentals With Applications
Authors: Daniel A. Crowl, Joseph F. Louvar
4th Edition
0134857771, 978-0134857770
