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An insulated steam turbine produces 8000 hp by accepting 30000 kg of steam at 10 MPa...
An insulated steam turbine receives 30 kg of steam per second at 3 MPa, 350 °C....
An insulated steam turbine receives 30 kg of steam per second at 3 MPa, 350 °C. At the point in the turbine where the pressure is 0.5 MPa, steam is bled off for processing equipment at the rate of 5 kg/s. The temperature of this steam is 200 °C. The balance of the steam leaves the turbine at 15 kPa, 90% quality. Determine the exergy per kilogram of the steam entering and at both points at which steam leaves the...
A steam turbine operates with P1 = 5 MPa and T1 = 600 °C at the...
A steam turbine operates with P1 = 5 MPa and T1 = 600 °C at the
inlet, an exit pressure of P2 = 100 kPa, a mass flow rate of ?̇ =
100 kg/s, and an isentropic efficiency of η = 85%. Complete a
thermodynamic analysis of the turbine, using the appropriate data
for water, by finding: (A) The temperature at the exit, T2, (B) the
work produced by the turbine, ?̇ ?, and (C) the rate of entropy
production...
Steam with the mass flow rate of 0.75 kg/s enters an adiabatic turbine steadily at 19 MPa, 600°C and 150 m/s
Steam with the mass flow rate of 0.75 kg/s enters an adiabatic turbine steadily at 19 MPa, 600°C and 150 m/s, and leaves at 150 kPa and 350 m/s. The isentropic efficiency of the turbine is 85%. Neglect potential energy. (I) Determine the exit temperature of the steam, and its quality (if saturated mixture) (ii) Calculate the actual power output of the turbine, in kW (iii) Illustrate a T-s diagram with respect to saturation lines for the isentropic process by clearly indicating all pressure, temperature,...
Problem 1: (10 pts) Steam enters an insulated turbine operating at steady state at a pressure...
Problem 1: (10 pts) Steam enters an insulated turbine operating at steady state at a pressure of 2 MPa and a temperature of 400°C. A liquid-vapor water mixture exits the turbine with a quality of 0.9 and a pressure of 15 kPa. The power output of the turbine is 5 MW. (1) Identify the keywords and state their meaning (2 pts) (2) Determine the mass flow rate of steam required (8 pts)
Steam expands through a well-insulated turbine from inlet conditions 300c and 4 Mpa with negligible velocity...
Steam expands through a
well-insulated turbine from inlet conditions 300c and 4 Mpa with
negligible velocity to exit conditions 40m/s and 0.075Mpa. The
turbine is operating at steady state and has an exit diameter of
0.6Mpa. Select two different values of exit quality in the range of
0.2 to 0.5 and subsequently plot the power generated by the turbine
in kw
Question 3 Steam expands through a well-insulated turbine from inlet conditions 300°C and 4 MPa with negligible velocity to...
Steam enters the turbine of a simple vapor power plant with a pressure of 12 Mpa...
Steam enters the turbine of a simple vapor power plant with a pressure of 12 Mpa and a temperature of 600 ℃ and expands adiabatically to condenser pressure p. The isentropic efficiency of both the turbine and the pump is 84%. (a) For p = 30 kPa, determine the turbine exit quality and the cycle thermal efficiency.
In a regenerative ideal Rankine cycle, hot water steam enters the turbine at 10 MPa and...
In a regenerative ideal Rankine cycle, hot water steam enters the turbine at 10 MPa and 480°C. condenser inlet pressure is 10 kPa. Some steam is taken from the turbine at a pressure of 0.7 MPa, feeds a Closed Feed water heater and is sent to the condenser as a saturated liquid at a pressure of 0.7 MPa at the outlet. The other outlet (cold) is at a pressure of 10 MPa and a saturation temperature of 0.7 MPa. According...
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...
Question 3 Steam expands through a well-insulated turbine from inlet conditions 300°C and 4 MPa with...
Question 3 Steam expands through a well-insulated turbine from inlet conditions 300°C and 4 MPa with negligible velocity to exit conditions 40 m/s and 0.075 MPa. The turbine is operating at steady state and has an exit diameter of 0.6 m. Select two (2) different values of exit quality in the range of 0.2 to 0.5 and subsequently plot the power generated by the turbine in kW. (10 MARKS]
TURBO MACHINES SUBJECT QUESTION 10 A multi-stage high -pressure steam turbine is supplied with steam at a stagnation pressure of 7 MPa and a stagnation temperature of 500°C. The corresponding specifi...
TURBO MACHINES SUBJECT
QUESTION 10 A multi-stage high -pressure steam turbine is supplied with steam at a stagnation pressure of 7 MPa and a stagnation temperature of 500°C. The corresponding specific enthalpy is 3410kJ.kg. The steam exhaust from the turbine at a stagnation pressure of 0.7 MPa abs., the steam having been in a super-heated condition throughout the expansion. It can be assumed that the steam behaves like a perfect gas over the range of the expansion and that v...
An insulated steam turbine receives 30 kg of steam per second at 3 MPa, 350 °C. At the point in the turbine where the pressure is 0.5 MPa, steam is bled off for processing equipment at the rate of 5 kg/s. The temperature of this steam is 200 °C. The balance of the steam leaves the turbine at 15 kPa, 90% quality. Determine the exergy per kilogram of the steam entering and at both points at which steam leaves the...
A steam turbine operates with P1 = 5 MPa and T1 = 600 °C at the
inlet, an exit pressure of P2 = 100 kPa, a mass flow rate of ?̇ =
100 kg/s, and an isentropic efficiency of η = 85%. Complete a
thermodynamic analysis of the turbine, using the appropriate data
for water, by finding: (A) The temperature at the exit, T2, (B) the
work produced by the turbine, ?̇ ?, and (C) the rate of entropy
production...
Problem 1: (10 pts) Steam enters an insulated turbine operating at steady state at a pressure of 2 MPa and a temperature of 400°C. A liquid-vapor water mixture exits the turbine with a quality of 0.9 and a pressure of 15 kPa. The power output of the turbine is 5 MW. (1) Identify the keywords and state their meaning (2 pts) (2) Determine the mass flow rate of steam required (8 pts)
Steam expands through a
well-insulated turbine from inlet conditions 300c and 4 Mpa with
negligible velocity to exit conditions 40m/s and 0.075Mpa. The
turbine is operating at steady state and has an exit diameter of
0.6Mpa. Select two different values of exit quality in the range of
0.2 to 0.5 and subsequently plot the power generated by the turbine
in kw
Question 3 Steam expands through a well-insulated turbine from inlet conditions 300°C and 4 MPa with negligible velocity to...
In a regenerative ideal Rankine cycle, hot water steam enters the turbine at 10 MPa and 480°C. condenser inlet pressure is 10 kPa. Some steam is taken from the turbine at a pressure of 0.7 MPa, feeds a Closed Feed water heater and is sent to the condenser as a saturated liquid at a pressure of 0.7 MPa at the outlet. The other outlet (cold) is at a pressure of 10 MPa and a saturation temperature of 0.7 MPa. According...
Question 3 Steam expands through a well-insulated turbine from inlet conditions 300°C and 4 MPa with negligible velocity to exit conditions 40 m/s and 0.075 MPa. The turbine is operating at steady state and has an exit diameter of 0.6 m. Select two (2) different values of exit quality in the range of 0.2 to 0.5 and subsequently plot the power generated by the turbine in kW. (10 MARKS]
TURBO MACHINES SUBJECT
QUESTION 10 A multi-stage high -pressure steam turbine is supplied with steam at a stagnation pressure of 7 MPa and a stagnation temperature of 500°C. The corresponding specific enthalpy is 3410kJ.kg. The steam exhaust from the turbine at a stagnation pressure of 0.7 MPa abs., the steam having been in a super-heated condition throughout the expansion. It can be assumed that the steam behaves like a perfect gas over the range of the expansion and that v...
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