A steam plant operates on the Rankine Cycle. The boiler pressure is 70bar andcondenser pressure 0.5bar. The steam enters the turbine at 500°C.Find:i) The specific enthalpy of the steam entering the turbine

A steam plant operates on the Rankine Cycle. The boiler pressure is 70bar andcondenser pressure 0.5bar. The steam enters the turbine at 500°C

Q2. Consider an ideal Rankine cycle where the boiler operates at 12.5 MPa and thecondenser operates at 40 kPa. The steam is superheated after the boiler to 600 oC. Theturbine produces 100 MW of shaft work. Determine:a) The mass flow rate of water through the turbine (in kg/s).b) The work required for the pump.Q3. For the process in Q2. Determine:a) The heat input into the boiler (in MW).b) The heat out for the condenser (in MW)c) The thermal efficiency of the cycle (in %).

A simple ideal Rankine cycle operates between the pressure limits of 10 kPa and 4 MPa, with a turbine inlet temperature of 500C. The mass fraction of steam that condenses at the turbine exit isQuestion 1Select one:a.14%b.0%c.92%d.86%e.8%

A boiler delivers 5400kg of steam per hour at a pressure of 800kN/m2 and with a drynessfraction of 0.98. The feedwater to the boiler is at a temperature of 42oC. The fuel usedfor the boiler has a calorific value of 31000kJ/kg.(i) Determine the heat energy absorbed by the steam per hour in the boiler

For a simple ideal Rankine cycle, which uses water as the working fluid, the work produced by the turbine is 962.37 kJ/kg and heat supplied in the boiler is 2,568.32 kJ/kg . The condenser operates at 8 kPa and its boiler operates at 8,614 kPa. Use v1 = 0.001008 m3/kg  in your calculations.Note: v-specific volumeAssumptions:Steady operating conditionKinetic and potential energy changes are negligible.Determine the thermal efficiency in % of this Rankine cycle when steam enters the turbine without any super-heating.