The Rankine cycle with one closed feedwater heater (CFWH). Superheated water vapor enters the turbine at 16 MPa, 520°C and the condenser pressure is 10 kPa. The mass flow rate of steam entering the turbine is 25 kg/s. The CFWH uses extracted steam at 6 MPa. Saturated liquid condensate drains from the CFWH at 6 MPa and is trapped with an expansion valve/trap at 10 kPa into the condenser. The feedwater leaves the CFWH at 16 MP and at a temperature that is equal to the saturation temperature at 6 MPa, Saturated liquid leaves the condenser at 10 kPa. No detailed property table is required. Assume that hT₁ = 85%, hT₂ = 85%, and hP₁= 80%, determine the following:

 

Specific Enthalpy at the turbine entry point. (h₁,kj/kg)

• Specific enthalpy (h₂ and h₂,kj/kg at the extraction location(use reasonable numbers for the calculation)
• Specific Enthalpies (h₃ and h₃,kj/kg) at the exist of turbine 2 (T₂).
• Specific volume and specific enthalpy at the condensers exit point.
• Specific enthalpy at the pump exit.
• Temperature (Celsius) and specific enthalpy of the fluid existing the closed feedwater heater toward the steam generator.
• Specific enthalpy of the condensate exiting the CFWH
• Specific enthalpy of the condensate exiting the trap valve.
• Show the all states and process in the T-s diagram
• The steam mass fraction bled into the closed feedwater heater
• The total turbine power (Wdot) and pump power (Wdot) in kw and the back work ratio as a percentage.
• The rate of heat transfer (Qdot) provided into the steam generator in kw.
• The thermnal efficiency of the power plant as a percentage

Transcribed Image Text:

STEAM GEN T1 T2 (1) 3 2 (1-y) (v) CFWH P1 CONDENSER (1) (1) (1) Expansion Valve/Trap 7 (y) (y)