Ideal reheat rankine cycle
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May 03, 2021
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About This Presentation
Lecture 2: Ideal reheat Rankine cycle
Slide Content
The Ideal Reheat Rankine Cycle
How can we take advantage of the increased
efficiencies at higher boiler pressures
without facing the problem of excessive
moisture at the final stages of the turbine?
How can we take advantage of the increased
efficiencies at higher boiler pressures
without facing the problem of excessive
moisture at the final stages of the turbine?
The ideal reheat Rankine cycle
Purpose:Reduce moisture content of the steam.
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reheatprimary
PTT
Purpose:Reduce moisture content of the steam.
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)()(
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reheatprimary
PTT
The ideal reheat Rankine cycle
Some important points:
1.Improvement from 2
nd
reheat is about half of 1
st
.
2.Double reheat almost always used in super-critical
pressure power plants.
3.Steam is not allowed to expand deep into the two-phase
region before it is taken for reheating.
4.Optimum reheat pressure for most modern power plants
is between one-fourth to one-fifth of the maximum
cycle pressure.
Some important points:
1.Improvement from 2
nd
reheat is about half of 1
st
.
2.Double reheat almost always used in super-critical
pressure power plants.
3.Steam is not allowed to expand deep into the two-phase
region before it is taken for reheating.
4.Optimum reheat pressure for most modern power plants
is between one-fourth to one-fifth of the maximum
cycle pressure.
Advantage:
–very high heat addition
=> high
Disadvantage:
–material requirements
(thermal/mechanical stress)
=> high initial costs
The ideal Supercritical reheat Rankine cycle
–very high heat addition
=> high
Disadvantage:
–material requirements
(thermal/mechanical stress)
=> high initial costs
The ideal Supercritical reheat Rankine cycle
A non-ideal reheat Rankine cycle%100,
PT
Note: T = Turbine ; P = Pump
s
4
6s
6
.
.
2.
2s
PT
Note: T = Turbine ; P = Pump
s
4
6s
6
.
.
2.
2s
Assignment # 2
1.Calculate the thermal efficiency for the ideal Reheat
Rankine cycle if we consider that the steam enters
the first-stage turbine at 3 MPa & 500 °C and
expands to 600 kPa. It is reheated to 450°C and
finally condensed at a pressure of 10 kPa. Also, (a)
for a 100 MW net power output, calculate the mass
flow rate of steam (in kg/hr) (b)the mass flow rate
of the condenser cooling water (in kg/hr), if the
cooling water enters the condenser at 15°C and exits
at 36°C (d)what is the decrease in efficiency if we
consider the isentropic efficiency of both the turbine
and pump to be 85%.
1.Calculate the thermal efficiency for the ideal Reheat
Rankine cycle if we consider that the steam enters
the first-stage turbine at 3 MPa & 500 °C and
expands to 600 kPa. It is reheated to 450°C and
finally condensed at a pressure of 10 kPa. Also, (a)
for a 100 MW net power output, calculate the mass
flow rate of steam (in kg/hr) (b)the mass flow rate
of the condenser cooling water (in kg/hr), if the
cooling water enters the condenser at 15°C and exits
at 36°C (d)what is the decrease in efficiency if we
consider the isentropic efficiency of both the turbine
and pump to be 85%.
Assignment # 2
2.Calculate the thermal efficiency, heat input and heat
rejected for the super-critical double-reheat ideal
Rankine cycle shown in the diagram.
2.Calculate the thermal efficiency, heat input and heat
rejected for the super-critical double-reheat ideal
Rankine cycle shown in the diagram.
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