#2 Separate streams of steam and air flow through the turbine and heat exchanger arrangement shown in the figure below, where the air stream mass rate m'5 ranges from 1500 kg/min to 3500 kg/min in increments of 500 kg/min and W't1= 10,000 kW,. Steady-state operating data are provided on the figure. Heat transfer with the surroundings can be neglected, as can all kinetic and potential energy effects. Turbine Steam in ' T = 600C P = 20 bar Turbine 2 P3=10 bar T =? T = 400C P2= 10 bar T = 240C P4=1 bar fmm fm Heat exchanger T6=1200 K P6=1 bar T = 1500 K 5 Ps 1.35 bar ms Air in | Analyze the two-compressor system for different air mass flow rates into the heat exchanger. Provide clearly detailed professional written sample of the calculations needed to analyze each component of the system and the overall system. Complete the following table and plot the mass of air M5 against the Temperate T3, plot the mass rate M5 against the power output of turbine 2, plot the mass rate M5 against the mass rate M1 of steam, plot the mass rate of air M5 against the value of the energy output provided by both turbines for a 24 hours period at the energy cost of $0.15/kwhr. Mass Rate of Air M5 in kg/min 1500 kg/min 2000 kg/min 2500 kg/min 3000 kg/min 3500 kg/min TWO TURBINE PROBLEM Value of total Mass energy Power Rate of provided by Temperature Output Water turbines T3 Turbine 2 Min running 24 kg/sec hours at $0.13/kwhr