Conduct a design sensitivity study of an ideal Rankine cycle (with superheat) by performing the following tasks. The working fluid is H2O.A.Base case: For the base (turbine inlet temperature and pressure of 700 K and 10 MPa respectively and a condenser pressure of 10 KPa) calculate the following quantities:i.The quality X of the steam exiting the turbineii.The work delivered by the turbine per unit mass of the working fluidiii.The heat rejected in the condenser per unit mass of working fluidiv.The pump work per unit mass of working fluidv.The heat added to the working fluid in the boiler per unit mass of working fluid andvi.The thermal efficiency of the cyclePerform all calculations by using the property tables of water or Mollier diagram.A.Turbine inlet temperature: Determine the quality of the steam exiting the turbine and the cycle efficiency as a function of the turbine inlet temperature. Use the following values: 600 K 700 K (base case) 800 K and 900 K. All other parameters are as in the base case. Use spreadsheet software to perform your calculations (quality (x) and cycle efficiency) and to plot the results of your computations (quality (x) and cycle efficiency) as functions of turbine inlet temperature.B.Turbine inlet temperature: Determine the turbine exit steam quality and the cycle thermal efficiency as a function of turbine inlet pressure. Use the following values: 5 MPa 10 MPa (base case) 15 MPa and 20 MPa. All other parameters are as in the base case. Use spreadsheet software and plot as in Part A.C.Turbine exhaust pressure: Perform calculations and plot in the same manner as in Parts A and B. Now vary the turbine outlet pressure (condenser pressure) using the following values: 5 KPa 10 KPa (base case) 50 KPa and 100 KPa.