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A turbine operates adiabatically with superheated steam entering at 45 bar and 400°C. If the exhaust...
A pump operates adiabatically with liquid water entering at T1 25 °C P, = 1 bar with a mass flow ...
A pump operates adiabatically with liquid water entering at T1 25 °C P, = 1 bar with a mass flow rate of 100 kg/s. The exhaust pressure is 20 bar and the pump efficiency is 0.75 (i) Determine the actual power requirement of the pump and the temperature of the discharged water 7 marks) (İİ) What is the rate of entropy generation of the adiabatic irreversible process?
A pump operates adiabatically with liquid water entering at T1 25 °C P,...
Part 2 A steam plant operates according to the Rankine cycle. Its data is: Boiler pressure 40 bar...
Please solve ONLY part B.
Thank you
Part 2 A steam plant operates according to the Rankine cycle. Its data is: Boiler pressure 40 bar Condenser pressure 0.02 bar The steam is dry saturated as it enters the turbine. Calculate the following (10 Marks) (5 Marks) (5 Marks) The cycle efficiency ii The work ratio ili Specific steam consumption In order to increase the average temperature of the heat supplied in the boiler the system from question 4 is now...
Question 38 (2 points) A steam turbine receives 10 kg/s of superheated steam at 120 bar...
Question 38 (2 points) A steam turbine receives 10 kg/s of superheated steam at 120 bar and 600°C. The steam expands adiabatically through the turbine and exits at a pressure of 0.2 bar and a quality of 90%. The steam inlet velocity is 200 m/s and the exit velocity is 50 m/s. Determine the power output of the turbine. 12.531 kW e) 12,344 kW (0) 12,719 kW None of the above
A Rankine steam cycle operates between 250°C and 45°C. The steam entering the turbine is completely...
A Rankine steam cycle operates between 250°C and 45°C. The steam entering the turbine is completely vaporised and the turbine is isentropic. Sketch the process on a T-s diagram. For this cycle with a steam mass flow of 5 kg/s, find the following: a. The work done by the turbine b. The work done by the pump c. The heat exchange rate from the condenser d. The cycle efficiency [4428W;-19.95W; -8614.5W; 33.8%]
1. Superheated water steam at 5 bar and 360 C enters a turbine operating at steady...
1. Superheated water steam at 5 bar and 360 C enters a turbine operating at steady state with a volume rate of 0.7 m3/s and expanded adiabatically to the exit state of 1 bar and 200 C, respectively. Kinetics and potential energy changes can be neglected. Determine: a) (2 pts) mass flow rate in kg/s (2 pts) power developed in kW (3 pts) total rate of entropy production in kW/K (4 pts) isentropic turbine efficiency
1. Exhaust gas at 400 C and 1 bar from i engines flows at the rate...
1. Exhaust gas at 400 C and 1 bar from i engines flows at the rate of 125 mol s into a waste-heat boiler where saturated steam in generated at a pressure of 1200 kPa. Water enters the boiler at 20 C (Ta) and the exhaust gases are cooled to within 10°C of the steam temperature. The heat capacity of the exhaust gases is C/R-3.341.12x10 T/K. The steam flows into an adiabatic turbine and exhausts at a pressure of 25...
To a steam turbine comes 10 kg / s 10 bar steam at the temperature of...
To a steam turbine comes 10 kg / s 10 bar steam at the temperature of 400 ° C. The steam leaves the turbine at a pressure of 10 kPa. The isentropic efficiency is 90%, and the other efficiency is a total of 87%. a. Determine the electrical power supplied by the generator connected to the steam turbine. b. The steam after the turbine is condensed into saturated liquid in a condenser. How much work must the pump supply to...
2) A steam power plant operates on an ideal regenerative rankine cycle with superheated steam leaving...
2) A steam power plant operates on an ideal regenerative rankine cycle with superheated steam leaving the boiler, entering the turbine at 10 mPa,600C. X fraction of steam is extracted from the turbine at 0.6 mPa pressure for the high pressure open feedwater heater. Then x fraction more of steam is extracted from the turbine at 0.2 mPa pressure for the low pressure open feedwater heater . The condenser pressure in the cycle is 5 kPa. The mass flow rate...
ENGR-213 QUIZ 1 THERMODYNAMICS Problem 5.(20%) 10 s of superheated steam at 1600 kPa and 400°C...
ENGR-213 QUIZ 1 THERMODYNAMICS Problem 5.(20%) 10 s of superheated steam at 1600 kPa and 400°C is expanded through a turbine, producing a saturated vapor at 500 kPa. (a) If the turbine operates adiabatically, how much shaft work is produced, in kW? Uce Sceun Tala!! 10.cp(70,37 75W 7%, n SE A (b) In a practical scenario, the turbine is producing only 3000 kW of power. What is the heat interaction for the turbine, in kW? T PAGE 5
1. a) Superheated steam at T1 (°C) and corresponding specific enthalpy H^1 and 10.0 bar pressure...
1. a) Superheated steam at T1 (°C) and corresponding specific enthalpy H^1 and 10.0 bar pressure is combined with saturated steam at T2 (°C) and 7.0 bar pressure in a ratio 1.96kg of steam at 10.0 bar / 1.0 kg steam at 7.0 bar. The product stream is at 250°C and 7.0 bar. The process operates at steady state. What is the specific enthalpy H^1 associated with stream 1 assuming that the blender operates adiabatically? b) You have calculated the...
A pump operates adiabatically with liquid water entering at T1 25 °C P, = 1 bar with a mass flow rate of 100 kg/s. The exhaust pressure is 20 bar and the pump efficiency is 0.75 (i) Determine the actual power requirement of the pump and the temperature of the discharged water 7 marks) (İİ) What is the rate of entropy generation of the adiabatic irreversible process?
A pump operates adiabatically with liquid water entering at T1 25 °C P,...
Please solve ONLY part B.
Thank you
Part 2 A steam plant operates according to the Rankine cycle. Its data is: Boiler pressure 40 bar Condenser pressure 0.02 bar The steam is dry saturated as it enters the turbine. Calculate the following (10 Marks) (5 Marks) (5 Marks) The cycle efficiency ii The work ratio ili Specific steam consumption In order to increase the average temperature of the heat supplied in the boiler the system from question 4 is now...
Question 38 (2 points) A steam turbine receives 10 kg/s of superheated steam at 120 bar and 600°C. The steam expands adiabatically through the turbine and exits at a pressure of 0.2 bar and a quality of 90%. The steam inlet velocity is 200 m/s and the exit velocity is 50 m/s. Determine the power output of the turbine. 12.531 kW e) 12,344 kW (0) 12,719 kW None of the above
1. Superheated water steam at 5 bar and 360 C enters a turbine operating at steady state with a volume rate of 0.7 m3/s and expanded adiabatically to the exit state of 1 bar and 200 C, respectively. Kinetics and potential energy changes can be neglected. Determine: a) (2 pts) mass flow rate in kg/s (2 pts) power developed in kW (3 pts) total rate of entropy production in kW/K (4 pts) isentropic turbine efficiency
1. Exhaust gas at 400 C and 1 bar from i engines flows at the rate of 125 mol s into a waste-heat boiler where saturated steam in generated at a pressure of 1200 kPa. Water enters the boiler at 20 C (Ta) and the exhaust gases are cooled to within 10°C of the steam temperature. The heat capacity of the exhaust gases is C/R-3.341.12x10 T/K. The steam flows into an adiabatic turbine and exhausts at a pressure of 25...
2) A steam power plant operates on an ideal regenerative rankine cycle with superheated steam leaving the boiler, entering the turbine at 10 mPa,600C. X fraction of steam is extracted from the turbine at 0.6 mPa pressure for the high pressure open feedwater heater. Then x fraction more of steam is extracted from the turbine at 0.2 mPa pressure for the low pressure open feedwater heater . The condenser pressure in the cycle is 5 kPa. The mass flow rate...
ENGR-213 QUIZ 1 THERMODYNAMICS Problem 5.(20%) 10 s of superheated steam at 1600 kPa and 400°C is expanded through a turbine, producing a saturated vapor at 500 kPa. (a) If the turbine operates adiabatically, how much shaft work is produced, in kW? Uce Sceun Tala!! 10.cp(70,37 75W 7%, n SE A (b) In a practical scenario, the turbine is producing only 3000 kW of power. What is the heat interaction for the turbine, in kW? T PAGE 5
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