Version 16 (modified by Giersch, 7 years ago) (diff)

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Wind Turbine Model Parameters

All Parameterisations

ADM-R





An introduction into the model will follow here. The influence of the nacelle on the flow is currently disabled due to segmentation faults on the FLOW HPC cluster (Oldenburg)











NAMELIST group name: wind_turbine_par

All Parameterisations:

Parameter Name FORTRAN Type Default Value Explanation

dtow

R(100)

0.0

Diameter of the tower of the wind turbine used below the rotor. This parameter has to be non-zero if a tower should be included. The parameter needs to be specified for every turbine separately.

nturbines

I

1

Number of the turbines to be included.

Maximum is 100.

phi_yaw

R(100)

0.0

Yaw angle for each turbine in degrees.

A positive yaw means a rotation of the rotor in clockwise direction within the xy-plane. A yaw angle equal to 0 means facing west.

rcx

R(100)

9999999.9

Longitudinal position of the rotor center (in m). This parameter needs to be specified for each turbine.

Example:

rcx = 1000.0, 1500.0, 2000.0,

rcy

R(100)

9999999.9

Lateral position of the rotor center (in m). This parameter needs to be specified for each turbine.

Example:

rcy = 400.0, 400.0, 800.0,

rcz

R(100)

9999999.9

Vertical position of the rotor center (in m). This parameter needs to be specified for each turbine. This represents the hub height of the turbine.

Example:

rcz = 90.0, 90.0, 90.0,

rnac

R(100)

0.0

Radius of the nacelle for each turbine (in m). This parameter has to be non-zero if the nacelle should be included. The parameter needs to be specified for each turbine.

rr

R(100)

63.0

Radius of the rotor (in m). This parameter needs to be specified for each turbine.

Example:

rr = 63.0, 63.0, 63.0,

tilt

R

0.0

Rotor tilt of the rotor plane (in degrees).

A positive angle means the bottom of the rotor plane is tilted away from the tower in order to avoid the blades hitting the tower. This parameter is specified once for all included turbines.

time_turbine_on

R

0.0

Simulation time at which the turbines are switched on.

turb_cd_nacelle

R(100)

0.85

Drag coefficient for each nacelle.

This parameter needs to be specified for each turbine.

turb_cd_tower

R(100)

1.2

Drag coefficient for each tower.

This parameter needs to be specified for each turbine.



ADM-R:

Parameter Name FORTRAN Type Default Value Explanation

air_dens

R

1.225

The air density (in kg/m3) is necessary to convert the aerodynamic torque of the rotor into a power (in W).

gear_eff

R

1.0

Efficiency of the gear: Loss between rotor and generator.

gear_ratio

R

97.0

Gear ratio from rotor to generator.

gen_eff

R

0.944

Electric efficiency of the generator.

inertia_gen

R

534.116

Inertia of the generator (in kg m2).

inertia_rot

R

34784179.0

Inertia of the rotor (in kg m2).

max_miss

R

0.08726

Maximum tolerated yaw misalignment (in rad).

max_torque_gen

R

47402.91

Maximum Torque of the generator (in Nm).

max_trq_rate

R

15000.0

Maximum generator torque rate (in Nm/s).

The maximum rate at which the generator torque can be increased to avoid overloading.

min_miss

R

0.008726

Minimum yaw misalignment for which the actuator stops (in rad).

min_reg15

R

70.16224

Lower generator speed boundary of region 1.5 (in rad/s).

Region 1.5 is a transition region between region 1 and 2, region 1 is before cut-in wind speed, the wind is used to accelerate the rotor, no power is produced. Region 1.5 is a start-up region and represents the lower limit of the generator speed therefore limiting the operational speed range of the wind turbine. (Jonkman et al. 2009: Technical Report NREL/TP-500-38060, doi:10.2172/947422).

min_reg2

R

91.21091

Lower generator speed boundary of region 2 (in rad/s). (Jonkman et al. 2009: Technical Report NREL/TP-500-38060, doi:10.2172/947422).

nairfoils

I

8

Number of airfoils of the used turbine model.

The airfoil data should be provided in the additional input file run_name_wtm.

omega_rot

R(100)

0.9

Initial rotational speed for each turbine (in rad s-1).

This parameter needs to be specified for each turbine.

pitch_add

R(100)

0.0

Pitch angle for a constant pitch angle (in degrees).

The value is used when pitch_control = .F.. This parameter needs to be specified for each turbine.

pitch_control

L

.F.

Parameter to switch on the pitch control.

The pitch control controls the pitch angle to yield constant power for wind speeds greater than rated wind speed. The parameter rated_power is used here.

pitch_rate

R

8.0

Maximum pitch rate (in degree/s).

rated_genspeed

R

121.6805

Rated generator speed (in rad/s).

rated_power

R

5296610.0

Rated power of the wind turbine (in W).

This parameter is specified once for all turbines, it is required for the pitch control.

segment_length

R

1.0

Length of each rotor segment the rotor area is divided into, in tangential direction, as factor of the minimum grid spacing (MIN(dx,dy,dz)). The default value is 1.0, in that case the tangential length of each segment is one grid spacing.

segment_width

R

0.5

Length of each rotor segment the rotor area is divided into, in radial direction, as factor of the minimum grid spacing (MIN(dx,dy,dz)). The default value is 0.5, in that case the segments would have the width of half a grid spacing.

slope2

R

2.332287

Slope constant for region 2.

In region 2 a constant tip speed ratio is maintained to optimize the power capture. In this region the generator torque is proportional to the square of the filtered generator speed. (Jonkman et al. 2009: Technical Report NREL/TP-500-38060, doi:10.2172/947422).

speed_control

L

.F.

Parameter to switch on the speed control.

The speed control controls the rotational speed of the turbine for wind speeds less than rated wind speed.

tl_cor

L

.F.

Parameter to switch on the tip loss correction.

yaw_control

L

.F.

Parameter to switch on the yaw controller.

yaw_speed

R

0.005236

Speed of the yaw actuator (in rad/s).