Also calculate heat rate for the cycle and power for the steam turbine only.

Write a MATLAB program to analyze the combined gas-steam power plant shown below. The "top cycle" generates 800 MW of power Air enters the compressor at 310 K, the combustion chamber at 700 K and the turbine at 1500 K. The combustion gase K and exit at 520 K. The combustion gases exiting the gas turbine are used to heat the steam (State 3) to 12.5 MPa to 500 C in a heat exchanger. Steam expands in a high-pressure turbine to a pressure of 2.5 MPa and is reheated in the heat exchanger to 500 C before it expands in a low-pressure turbine to 10 kPa. Assume all heat exchangers operate at constant pressure and isentropic efficiencies of 80.0 % for the pump, and 88 %for steam turbines. s enter the heat exchanger at 850 Upload a .m file modeling this cycle. It should write to the screen ONLY the following values. (a) the mass flow rate of air in the gas-turbine cycle, [kg/s] (b) the rate of total heat input into the combustion chamber [MW], and (c) the thermal efficiency of the combined cycle(%) 10 Heat exchanger Steam 4 Write a MATLAB program to analyze the combined gas-steam power plant shown below. The "top cycle" generates 800 MW of power Air enters the compressor at 310 K, the combustion chamber at 700 K and the turbine at 1500 K. The combustion gase K and exit at 520 K. The combustion gases exiting the gas turbine are used to heat the steam (State 3) to 12.5 MPa to 500 C in a heat exchanger. Steam expands in a high-pressure turbine to a pressure of 2.5 MPa and is reheated in the heat exchanger to 500 C before it expands in a low-pressure turbine to 10 kPa. Assume all heat exchangers operate at constant pressure and isentropic efficiencies of 80.0 % for the pump, and 88 %for steam turbines. s enter the heat exchanger at 850 Upload a .m file modeling this cycle. It should write to the screen ONLY the following values. (a) the mass flow rate of air in the gas-turbine cycle, [kg/s] (b) the rate of total heat input into the combustion chamber [MW], and (c) the thermal efficiency of the combined cycle(%) 10 Heat exchanger Steam 4