Let's assume that we generate electrical energy through a turbine generator. A reversible adiabatic Before entering the turbine, it must be raised to a pressure of 10000 kPa and a temperature of 450 ºC. From the steam turbine pressure drops up to 150 kPa and a temperature of 100 C while exiting. The flow rate of steam in the turbine is 39 kg / s. This Meanwhile, your ambient temperature is measured as 25 ºC and pressure as 100 kPa. Considering these conditions, steam how much exergy does it have when entering and exiting?, how much power does the turbine generate ?, how much more than this turbine power can be generated and what is the second-law efficiency of this turbine? Calculate.
Let's assume that we generate electrical energy through a turbine generator. A reversible adiabatic
Before entering the turbine, it must be raised to a pressure of 10000 kPa and a temperature of 450 ºC. From the steam turbine
pressure drops up to 150 kPa and a temperature of 100 C while exiting. The flow rate of steam in the turbine is 39 kg / s. This
Meanwhile, your ambient temperature is measured as 25 ºC and pressure as 100 kPa. Considering these conditions, steam
how much exergy does it have when entering and exiting?, how much power does the turbine generate ?, how much more than this turbine
power can be generated and what is the second-law efficiency of this turbine? Calculate.
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