Fluid Dynamic Principles to Generate Axial Induction.ppt
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Fluid Dynamic Principles to Generate Axial Induction.pptFluid Dynamic Principles to Generate Axial Induction.pptFluid Dynamic Principles to Generate Axial Induction.pptFluid Dynamic Principles to Generate Axial Induction.pptFluid Dynamic Principles to Generate Axial Induction.pptFluid Dynamic Princi...
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Fluid Dynamic Principles to Generate Axial Induction
P M V Subbarao
Professor
Mechanical Engineering Department
I I T Delhi
Basic Methods of Solid Fluid Interactions to Extract
Wind Power ……
P M V Subbarao
Professor
Mechanical Engineering Department
I I T Delhi
Basic Methods of Solid Fluid Interactions to Extract
Wind Power ……
Mechanical Power Extraction :The fundamental
Aerodynamic Phenomena
•The type of aerodynamic forces used for generation of change in
tangential velocity across a rotor greatly influences the actual
power developed by a wind turbine.
•All bodies exposed to an airflow experience an aerodynamic force.
•The components of which are defined as aerodynamic drag (in the
direction of flow), and as aerodynamic lift (at a right angle to the
direction of flow}.
•The real power coefficients obtained vary greatly in dependence on
whether aerodynamic drag or aerodynamic lift is used for power
generation.
•A significant enhancement in power generation can be achieved in
lift machines when compared to and drag machine.
•This is due to the fact that much higher relative wind velocities can
be achieved with lift machines.
Aerodynamic Phenomena
•The type of aerodynamic forces used for generation of change in
tangential velocity across a rotor greatly influences the actual
power developed by a wind turbine.
•All bodies exposed to an airflow experience an aerodynamic force.
•The components of which are defined as aerodynamic drag (in the
direction of flow), and as aerodynamic lift (at a right angle to the
direction of flow}.
•The real power coefficients obtained vary greatly in dependence on
whether aerodynamic drag or aerodynamic lift is used for power
generation.
•A significant enhancement in power generation can be achieved in
lift machines when compared to and drag machine.
•This is due to the fact that much higher relative wind velocities can
be achieved with lift machines.
Basic Principle of Changing Angular Momentum
Drag driven WT Lift driven WT
Drag driven WT Lift driven WT
Drag Translator
•Drag results from the relative velocity between the wind and the
device.
•The power extracted by an elementary drag is the product of the
drag force and the translation velocity.
translatortranslatorpDtranslator vvVACP
2
0
2
1
translatortranslatorvDP
•Drag results from the relative velocity between the wind and the
device.
•The power extracted by an elementary drag is the product of the
drag force and the translation velocity.
translatortranslatorpDtranslator vvVACP
2
0
2
1
translatortranslatorvDP
Simple Drag Device
•The simplest type of wind energy conversion
can be achieved by means of pure drag
surfaces.
•The air impinges on the surface A with
velocityV
0.
•The instantaneous power capture P from the
aerodynamic drag D, and the velocity V
blade
with which it moves is expressed as :
blade
VDP
Define coefficient of drag: AVCD
relD
2
2
V
0bladeV
•The simplest type of wind energy conversion
can be achieved by means of pure drag
surfaces.
•The air impinges on the surface A with
velocityV
0.
•The instantaneous power capture P from the
aerodynamic drag D, and the velocity V
blade
with which it moves is expressed as :
blade
VDP
Define coefficient of drag: AVCD
relD
2
2
V
0bladeV
Capacity of Drag Device
bladerelD VAVCP
2
2
Instantaneous Power Developed by a drag device
Average Power Developed by a drag device
dPP
avg
2
1
dVAVCP
bladerelDavg
2
22
1
bladerelD VAVCP
2
2
Instantaneous Power Developed by a drag device
Average Power Developed by a drag device
dPP
avg
2
1
dVAVCP
bladerelDavg
2
22
1
Power Coefficient of A Drag Wind Turbine
•Condition for maximum value of C
Pmax,
The instantaneous power coefficient
wind
P
P
P
C
,
3
0
2
0
max,
2
2
VA
RARVC
C
D
p
2
max,
1
DP
CC 3
1
0
max
pC 27
4
max,
D
P
C
C
Maximum instantaneous power coefficient
3
0
2
0
max,
V
RRVC
C
D
P
0
2
0
max,
1
V
R
V
R
CC
DP
Define Blade Speed Ratio,
•Condition for maximum value of C
Pmax,
The instantaneous power coefficient
wind
P
P
P
C
,
3
0
2
0
max,
2
2
VA
RARVC
C
D
p
2
max,
1
DP
CC 3
1
0
max
pC 27
4
max,
D
P
C
C
Maximum instantaneous power coefficient
3
0
2
0
max,
V
RRVC
C
D
P
0
2
0
max,
1
V
R
V
R
CC
DP
Define Blade Speed Ratio,
Efficient Drag devices
•The aerodynamic drag coefficient of a concave surface curved
against the wind direction can hardly exceed a value of 1.3.
V
0
v
r1926.0
max,
p
C
•The aerodynamic drag coefficient of a concave surface curved
against the wind direction can hardly exceed a value of 1.3.
V
0
v
r1926.0
max,
p
C
Cup anemometer
R
V
0
V
0 +V
b
V
0-V
b
R
V
0
V
0 +V
b
V
0-V
b
Maximum Torque Generated by A Cup Anemometer
R
2
0
2
1
RVCAF
DpD
2
0
2
1
RVCAF
DpD
2
0
2
0max,
2
1
RVCRVCRARFF
DDpDD
R
2
0
2
1
RVCAF
DpD
2
0
2
1
RVCAF
DpD
2
0
2
0max,
2
1
RVCRVCRARFF
DDpDD
Selection of Cup Geometries
Instantaneous Drag Coefficient
cos
DC
cos
DC
Cup Anemometer as An Wind Speed Measuring
Devices-1
Devices-1
Cup Anemometer as An Wind Speed Measuring
Devices-2
V
0
Devices-2
V
0
Cup Anemometer as An Wind Speed Measuring
Devices-3
V
0
Devices-3
V
0
Savonius Rotor Wind Turbine
Creative Designs
Lift Devices
Lift Based Blade in Wind Turbine
Flow past an airfoil
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