Energy balance equation: An inlet stream of superheated steam at 10 bar and a temperature of 350C is fed to a steam turbine. The outlet from the steam turbine is saturated steam at 1 bar. If the mass flow rate of steam is 1.2 kg/sec, then what is the amount of power (given in units of kWatts or kJoules/sec) that will result from this flow rate of steam through the turbine at the conditions stated? You should use the open system version of the energy balance equation, and consider the turbine to be operating under adiabatic conditions. You should neglect any changes in kinetic or potential energy terms and use the Table B.7 below. Document your solution to this problem by giving the necessary intermediate pieces of info shown below.

1. (30 pts) Energy balance equation: An inlet stream of superheated steam at 10 bar and a temperature of 350C is fed to a steam turbine. The outlet from the steam turbine is saturated steam at 1 bar. If the mass flow rate of steam is 1.2kg/sec, then what is the amount of power (given in units of kWatts or kJoules/sec) that will result from this flow rate of steam through the turbine at the conditions stated? You should use the open system version of the energy balance equation, and consider the turbine to be operating under adiabatic conditions. You should neglect any changes in kinetic or potential energy terms and use the Table B.7 below. Document your solution to this problem by giving the necessary intermediate pieces of info shown below. 1. (30 pts) Energy balance equation: An inlet stream of superheated steam at 10 bar and a temperature of 350C is fed to a steam turbine. The outlet from the steam turbine is saturated steam at 1 bar. If the mass flow rate of steam is 1.2kg/sec, then what is the amount of power (given in units of kWatts or kJoules/sec) that will result from this flow rate of steam through the turbine at the conditions stated? You should use the open system version of the energy balance equation, and consider the turbine to be operating under adiabatic conditions. You should neglect any changes in kinetic or potential energy terms and use the Table B.7 below. Document your solution to this problem by giving the necessary intermediate pieces of info shown below