Engineering, 28.07.2020 17:01 krystalScott17
A steam power plant design consists of an ideal Rankine cycle with regeneration. Steam enters Turbine 1 at P1 and T1 at the rate of m1 and exits at P2. A fraction (y') of the steam exiting Turbine 1 is diverted to a closed feedwater heater while the remainder enters Turbine 2. A portion (y'') of the steam exiting Turbine 2 at P3 is diverted to an open feedwater heater while the remainder enters Turbine 3. The exit of Turbine 3 is fed into a condenser that operates at P4. Saturared liquid exits the condenser and is fed to Pump 1. The outlet of Pump 1 is fed into the open feedwater heater. Saturated liquid exits the open feedwater heater and is fed to Pump 2. The outlet of pump 2 is fed to the closed feedwater heater. Saturated liquid exits the low pressure output of the closed feedwater heater and is fed through a steam trap to the open feedwater heater. Both exits of the closed feedwater heater are at the same temperature. All turbines and pumps are isentropic.
--Given Values--
m1 (kg/s) = 50
P1 (Bar) = 160
T1 (oC) = 640
P2 (Bar) = 10
T3 (C) = 600
P4 (Bar) = 1
P5 (Bar) = 0.06
a) Determine the specific enthalpy (kJ/kg) at the inlet of turbine 1.
Your Answer = Correct! Exact Answer= 3573.50 +/- 1.16E+00
b) Determine the specific enthalpy (kJ/kg) at the exit of turbine 1.
Your Answer =
c) Determine the specific enthalpy (kJ/kg) at the inlet of turbine 2 .
Your Answer =
d) Determine the specific enthalpy (kJ/kg) at the exit of turbine 2.
Your Answer =
e) Determine the specific enthalpy (kJ/kg) at the condenser exit.
Your Answer =
f) Determine the specific enthalpy (kJ/kg) at the exit of the low pressure pump.
Your Answer =
g) Determine the specific enthalpy (kJ/kg) at the exit of the feedwater heater.
Your Answer =
h) Determine the specific enthalpy (kJ/kg) at the exit of the high pressure pump.
Your Answer =
i) Determine the fraction (y') of flow diverted to the open feedwater heater.
Your Answer =
j) Determine the power (MW) produced by turbine 1.
Your Answer =
k) Determine the power (MW) produced by turbine 2.
Your Answer =
l) Determine the power (kW) required (a positive number) by the low pressure pump.
Your Answer =
m) Determine the power (kW) required (a positive number) by the high pressure pump.
Your Answer =
n) Determine the total rate of heat transfer (MW) supplied to the boiler.
Your Answer =
o) Determine the thermal efficiency (%) of the power plant.
Your Answer =
Answers: 1
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A steam power plant design consists of an ideal Rankine cycle with regeneration. Steam enters Turbin...
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