WISDEM Output Variables
This table may be downloaded as a CSV file
or JSON file
Variable |
Units |
Description |
---|---|---|
materials.E |
Pa |
2D array of the Youngs moduli of the materials. Each row represents a material, the three columns represent E11, E22 and E33. |
materials.G |
Pa |
2D array of the shear moduli of the materials. Each row represents a material, the three columns represent G12, G13 and G23. |
materials.nu |
2D array of the Poisson ratio of the materials. Each row represents a material, the three columns represent nu12, nu13 and nu23. |
|
materials.Xt |
Pa |
2D array of the Ultimate Tensile Strength (UTS) of the materials. Each row represents a material, the three columns represent Xt12, Xt13 and Xt23. |
materials.Xc |
Pa |
2D array of the Ultimate Compressive Strength (UCS) of the materials. Each row represents a material, the three columns represent Xc12, Xc13 and Xc23. |
materials.S |
Pa |
2D array of the Ultimate Shear Strength (USS) of the materials. Each row represents a material, the three columns represent S12, S13 and S23. |
materials.sigma_y |
Pa |
Yield stress of the material (in the principle direction for composites). |
materials.wohler_exp |
Exponent of S-N Wohler fatigue curve in the form of S = A*N^-(1/m). |
|
materials.wohler_intercept |
Stress-intercept (A) of S-N Wohler fatigue curve in the form of S = A*N^-(1/m), taken as ultimate stress unless otherwise specified. |
|
materials.unit_cost |
USD/kg |
1D array of the unit costs of the materials. |
materials.waste |
1D array of the non-dimensional waste fraction of the materials. |
|
materials.roll_mass |
kg |
1D array of the roll mass of the composite fabrics. Non-composite materials are kept at 0. |
materials.rho_fiber |
kg/m**3 |
1D array of the density of the fibers of the materials. |
materials.rho |
kg/m**3 |
1D array of the density of the materials. For composites, this is the density of the laminate. |
materials.rho_area_dry |
kg/m**2 |
1D array of the dry aerial density of the composite fabrics. Non-composite materials are kept at 0. |
materials.ply_t_from_yaml |
m |
1D array of the ply thicknesses of the materials. Non-composite materials are kept at 0. |
materials.fvf_from_yaml |
1D array of the non-dimensional fiber volume fraction of the composite materials. Non-composite materials are kept at 0. |
|
materials.fwf_from_yaml |
1D array of the non-dimensional fiber weight- fraction of the composite materials. Non-composite materials are kept at 0. |
|
materials.orth |
Unavailable |
1D array of flags to set whether a material is isotropic (0) or orthtropic (1). Each entry represents a material. |
materials.name |
Unavailable |
1D array of names of materials. |
materials.component_id |
Unavailable |
1D array of flags to set whether a material is used in a blade: 0 - coating, 1 - sandwich filler , 2 - shell skin, 3 - shear webs, 4 - spar caps, 5 - TE reinf.isotropic. |
materials.ply_t |
m |
1D array of the ply thicknesses of the materials. Non-composite materials are kept at 0. |
materials.fvf |
1D array of the non-dimensional fiber volume fraction of the composite materials. Non-composite materials are kept at 0. |
|
materials.fwf |
1D array of the non-dimensional fiber weight- fraction of the composite materials. Non-composite materials are kept at 0. |
|
airfoils.ac |
1D array of the aerodynamic centers of each airfoil. |
|
airfoils.r_thick |
1D array of the relative thicknesses of each airfoil. |
|
airfoils.aoa |
rad |
1D array of the angles of attack used to define the polars of the airfoils. All airfoils defined in openmdao share this grid. |
airfoils.Re |
1D array of the Reynolds numbers used to define the polars of the airfoils. All airfoils defined in openmdao share this grid. |
|
airfoils.cl |
4D array with the lift coefficients of the airfoils. Dimension 0 is along the different airfoils defined in the yaml, dimension 1 is along the angles of attack, dimension 2 is along the Reynolds number, dimension 3 is along the number of tabs, which may describe multiple sets at the same station, for example in presence of a flap. |
|
airfoils.cd |
4D array with the drag coefficients of the airfoils. Dimension 0 is along the different airfoils defined in the yaml, dimension 1 is along the angles of attack, dimension 2 is along the Reynolds number, dimension 3 is along the number of tabs, which may describe multiple sets at the same station, for example in presence of a flap. |
|
airfoils.cm |
4D array with the moment coefficients of the airfoils. Dimension 0 is along the different airfoils defined in the yaml, dimension 1 is along the angles of attack, dimension 2 is along the Reynolds number, dimension 3 is along the number of tabs, which may describe multiple sets at the same station, for example in presence of a flap. |
|
airfoils.coord_xy |
3D array of the x and y airfoil coordinates of the n_af airfoils. |
|
airfoils.name |
Unavailable |
1D array of names of airfoils. |
configuration.rated_power |
W |
Electrical rated power of the generator. |
configuration.lifetime |
year |
Turbine design lifetime. |
configuration.rotor_diameter_user |
m |
Diameter of the rotor specified by the user. It is defined as two times the blade length plus the hub diameter. |
configuration.hub_height_user |
m |
Height of the hub center over the ground (land-based) or the mean sea level (offshore) specified by the user. |
configuration.ws_class |
Unavailable |
IEC wind turbine class. I - offshore, II coastal, III - land-based, IV - low wind speed site. |
configuration.turb_class |
Unavailable |
IEC wind turbine category. A - high turbulence intensity (land-based), B - mid turbulence, C - low turbulence (offshore). |
configuration.gearbox_type |
Unavailable |
Gearbox configuration (geared, direct-drive, etc.). |
configuration.rotor_orientation |
Unavailable |
Rotor orientation, either upwind or downwind. |
configuration.upwind |
Unavailable |
Convenient boolean for upwind (True) or downwind (False). |
configuration.n_blades |
Unavailable |
Number of blades of the rotor. |
hub.cone |
rad |
Cone angle of the rotor. It defines the angle between the rotor plane and the blade pitch axis. A standard machine has positive values. |
hub.diameter |
m |
|
hub.flange_t2shell_t |
||
hub.flange_OD2hub_D |
||
hub.flange_ID2flange_OD |
||
hub.hub_stress_concentration |
||
hub.clearance_hub_spinner |
m |
|
hub.spin_hole_incr |
||
hub.pitch_system_scaling_factor |
||
hub.hub_in2out_circ |
||
hub.n_front_brackets |
Unavailable |
|
hub.n_rear_brackets |
Unavailable |
|
hub.hub_material |
Unavailable |
|
hub.spinner_material |
Unavailable |
|
hub.radius |
m |
Radius of the hub. It defines the distance of the blade root from the rotor center along the coned line. |
control.V_in |
m/s |
Cut in wind speed. This is the wind speed where region II begins. |
control.V_out |
m/s |
Cut out wind speed. This is the wind speed where region III ends. |
control.minOmega |
rad/s |
Minimum allowed rotor speed. |
control.maxOmega |
rad/s |
Maximum allowed rotor speed. |
control.max_TS |
m/s |
Maximum allowed blade tip speed. |
control.max_pitch_rate |
rad/s |
Maximum allowed blade pitch rate |
control.max_torque_rate |
N*m/s |
Maximum allowed generator torque rate |
control.rated_TSR |
Constant tip speed ratio in region II. |
|
control.rated_pitch |
rad |
Constant pitch angle in region II. |
blade.opt_var.s_opt_twist |
||
blade.opt_var.s_opt_chord |
||
blade.opt_var.twist_opt |
rad |
|
blade.opt_var.chord_opt |
m |
|
blade.opt_var.af_position |
||
blade.opt_var.s_opt_layer_0 |
||
blade.opt_var.layer_0_opt |
m |
|
blade.opt_var.s_opt_layer_1 |
||
blade.opt_var.layer_1_opt |
m |
|
blade.opt_var.s_opt_layer_2 |
||
blade.opt_var.layer_2_opt |
m |
|
blade.opt_var.s_opt_layer_3 |
||
blade.opt_var.layer_3_opt |
m |
|
blade.opt_var.s_opt_layer_4 |
||
blade.opt_var.layer_4_opt |
m |
|
blade.opt_var.s_opt_layer_5 |
||
blade.opt_var.layer_5_opt |
m |
|
blade.opt_var.s_opt_layer_6 |
||
blade.opt_var.layer_6_opt |
m |
|
blade.opt_var.s_opt_layer_7 |
||
blade.opt_var.layer_7_opt |
m |
|
blade.opt_var.s_opt_layer_8 |
||
blade.opt_var.layer_8_opt |
m |
|
blade.opt_var.s_opt_layer_9 |
||
blade.opt_var.layer_9_opt |
m |
|
blade.opt_var.s_opt_layer_10 |
||
blade.opt_var.layer_10_opt |
m |
|
blade.opt_var.s_opt_layer_11 |
||
blade.opt_var.layer_11_opt |
m |
|
blade.opt_var.s_opt_layer_12 |
||
blade.opt_var.layer_12_opt |
m |
|
blade.opt_var.s_opt_layer_13 |
||
blade.opt_var.layer_13_opt |
m |
|
blade.opt_var.s_opt_layer_14 |
||
blade.opt_var.layer_14_opt |
m |
|
blade.opt_var.s_opt_layer_15 |
||
blade.opt_var.layer_15_opt |
m |
|
blade.opt_var.s_opt_layer_16 |
||
blade.opt_var.layer_16_opt |
m |
|
blade.opt_var.s_opt_layer_17 |
||
blade.opt_var.layer_17_opt |
m |
|
blade.outer_shape_bem.af_position |
1D array of the non dimensional positions of the airfoils af_used defined along blade span. |
|
blade.outer_shape_bem.s_default |
1D array of the non-dimensional spanwise grid defined along blade axis (0-blade root, 1-blade tip) |
|
blade.outer_shape_bem.chord_yaml |
m |
1D array of the chord values defined along blade span. |
blade.outer_shape_bem.twist_yaml |
rad |
1D array of the twist values defined along blade span. The twist is defined positive for negative rotations around the z axis (the same as in BeamDyn). |
blade.outer_shape_bem.pitch_axis_yaml |
1D array of the chordwise position of the pitch axis (0-LE, 1-TE), defined along blade span. |
|
blade.outer_shape_bem.ref_axis_yaml |
m |
2D array of the coordinates (x,y,z) of the blade reference axis, defined along blade span. The coordinate system is the one of BeamDyn: it is placed at blade root with x pointing the suction side of the blade, y pointing the trailing edge and z along the blade span. A standard configuration will have negative x values (prebend), if swept positive y values, and positive z values. |
blade.outer_shape_bem.r_thick_yaml |
1D array of the relative thickness values defined along blade span. |
|
blade.outer_shape_bem.s |
1D array of the non-dimensional spanwise grid defined along blade axis (0-blade root, 1-blade tip) |
|
blade.outer_shape_bem.chord |
m |
1D array of the chord values defined along blade span. |
blade.outer_shape_bem.twist |
rad |
1D array of the twist values defined along blade span. The twist is defined positive for negative rotations around the z axis (the same as in BeamDyn). |
blade.outer_shape_bem.pitch_axis |
1D array of the chordwise position of the pitch axis (0-LE, 1-TE), defined along blade span. |
|
blade.outer_shape_bem.r_thick_yaml_interp |
1D array of the relative thickness values defined along blade span. |
|
blade.outer_shape_bem.ref_axis |
m |
2D array of the coordinates (x,y,z) of the blade reference axis, defined along blade span. The coordinate system is the one of BeamDyn: it is placed at blade root with x pointing the suction side of the blade, y pointing the trailing edge and z along the blade span. A standard configuration will have negative x values (prebend), if swept positive y values, and positive z values. |
blade.pa.twist_param |
rad |
1D array of the twist values defined along blade span. The twist is the result of the parameterization. |
blade.pa.chord_param |
m |
1D array of the chord values defined along blade span. The chord is the result of the parameterization. |
blade.pa.max_chord_constr |
1D array of the ratio between chord values and maximum chord along blade span. |
|
blade.interp_airfoils.r_thick_interp |
1D array of the relative thicknesses of the blade defined along span. |
|
blade.interp_airfoils.ac_interp |
1D array of the aerodynamic center of the blade defined along span. |
|
blade.interp_airfoils.cl_interp |
4D array with the lift coefficients of the airfoils. Dimension 0 is along the blade span for n_span stations, dimension 1 is along the angles of attack, dimension 2 is along the Reynolds number, dimension 3 is along the number of tabs, which may describe multiple sets at the same station, for example in presence of a flap. |
|
blade.interp_airfoils.cd_interp |
4D array with the drag coefficients of the airfoils. Dimension 0 is along the blade span for n_span stations, dimension 1 is along the angles of attack, dimension 2 is along the Reynolds number, dimension 3 is along the number of tabs, which may describe multiple sets at the same station, for example in presence of a flap. |
|
blade.interp_airfoils.cm_interp |
4D array with the moment coefficients of the airfoils. Dimension 0 is along the blade span for n_span stations, dimension 1 is along the angles of attack, dimension 2 is along the Reynolds number, dimension 3 is along the number of tabs, which may describe multiple sets at the same station, for example in presence of a flap. |
|
blade.interp_airfoils.coord_xy_interp |
3D array of the non-dimensional x and y airfoil coordinates of the airfoils interpolated along span for n_span stations. The leading edge is place at x=0 and y=0. |
|
blade.high_level_blade_props.rotor_diameter |
m |
Diameter of the rotor used in WISDEM. It is defined as two times the blade length plus the hub diameter. |
blade.high_level_blade_props.r_blade |
m |
1D array of the dimensional spanwise grid defined along the rotor (hub radius to blade tip projected on the plane) |
blade.high_level_blade_props.rotor_radius |
m |
Scalar of the rotor radius, defined ignoring prebend and sweep curvatures, and cone and uptilt angles. |
blade.high_level_blade_props.blade_ref_axis |
m |
2D array of the coordinates (x,y,z) of the blade reference axis scaled based on rotor diameter, defined along blade span. The coordinate system is the one of BeamDyn: it is placed at blade root with x pointing the suction side of the blade, y pointing the trailing edge and z along the blade span. A standard configuration will have negative x values (prebend), if swept positive y values, and positive z values. |
blade.high_level_blade_props.prebend |
m |
Blade prebend at each section |
blade.high_level_blade_props.prebendTip |
m |
Blade prebend at tip |
blade.high_level_blade_props.presweep |
m |
Blade presweep at each section |
blade.high_level_blade_props.presweepTip |
m |
Blade presweep at tip |
blade.high_level_blade_props.blade_length |
m |
Scalar of the 3D blade length computed along its axis, scaled based on the user defined rotor diameter. |
blade.compute_reynolds.Re |
||
blade.compute_coord_xy_dim.coord_xy_dim |
m |
3D array of the dimensional x and y airfoil coordinates of the airfoils interpolated along span for n_span stations. The origin is placed at the pitch axis. |
blade.compute_coord_xy_dim.coord_xy_dim_twisted |
m |
3D array of the dimensional x and y airfoil coordinates of the airfoils interpolated along span for n_span stations. The origin is placed at the pitch axis. |
blade.compute_coord_xy_dim.wetted_area |
m**2 |
The wetted (painted) surface area of the blade |
blade.compute_coord_xy_dim.projected_area |
m**2 |
The projected surface area of the blade |
blade.internal_structure_2d_fem.layer_web |
1D array of the web id the layer is associated to. If the layer is on the outer profile, this entry can simply stay equal to zero. |
|
blade.internal_structure_2d_fem.layer_thickness |
m |
2D array of the thickness of the layers of the blade structure. The first dimension represents each layer, the second dimension represents each entry along blade span. |
blade.internal_structure_2d_fem.layer_orientation |
rad |
Fiber orientation of the composite layer with 0-value meaning alignment with reference axis. The first dimension represents each layer, the second dimension represents each entry along blade span. |
blade.internal_structure_2d_fem.layer_midpoint_nd |
2D array of the non-dimensional midpoint defined along the outer profile of a layer. The first dimension represents each layer, the second dimension represents each entry along blade span. |
|
blade.internal_structure_2d_fem.web_start_nd_yaml |
2D array of the non-dimensional start point defined along the outer profile of a web. The TE suction side is 0, the TE pressure side is 1. The first dimension represents each web, the second dimension represents each entry along blade span. |
|
blade.internal_structure_2d_fem.web_end_nd_yaml |
2D array of the non-dimensional end point defined along the outer profile of a web. The TE suction side is 0, the TE pressure side is 1. The first dimension represents each web, the second dimension represents each entry along blade span. |
|
blade.internal_structure_2d_fem.web_rotation_yaml |
rad |
2D array of the rotation angle of the shear webs in respect to the chord line. The first dimension represents each shear web, the second dimension represents each entry along blade span. If the rotation is equal to negative twist +- a constant, then the web is built straight. |
blade.internal_structure_2d_fem.web_offset_y_pa_yaml |
m |
2D array of the offset along the y axis to set the position of the shear webs. Positive values move the web towards the trailing edge, negative values towards the leading edge. The first dimension represents each shear web, the second dimension represents each entry along blade span. |
blade.internal_structure_2d_fem.layer_rotation_yaml |
rad |
2D array of the rotation angle of a layer in respect to the chord line. The first dimension represents each layer, the second dimension represents each entry along blade span. If the rotation is equal to negative twist +- a constant, then the layer is built straight. |
blade.internal_structure_2d_fem.layer_start_nd_yaml |
2D array of the non-dimensional start point defined along the outer profile of a layer. The TE suction side is 0, the TE pressure side is 1. The first dimension represents each layer, the second dimension represents each entry along blade span. |
|
blade.internal_structure_2d_fem.layer_end_nd_yaml |
2D array of the non-dimensional end point defined along the outer profile of a layer. The TE suction side is 0, the TE pressure side is 1. The first dimension represents each layer, the second dimension represents each entry along blade span. |
|
blade.internal_structure_2d_fem.layer_offset_y_pa_yaml |
m |
2D array of the offset along the y axis to set the position of a layer. Positive values move the layer towards the trailing edge, negative values towards the leading edge. The first dimension represents each layer, the second dimension represents each entry along blade span. |
blade.internal_structure_2d_fem.layer_width_yaml |
m |
2D array of the width along the outer profile of a layer. The first dimension represents each layer, the second dimension represents each entry along blade span. |
blade.internal_structure_2d_fem.joint_position |
Spanwise position of the segmentation joint. |
|
blade.internal_structure_2d_fem.joint_mass |
kg |
Mass of the joint. |
blade.internal_structure_2d_fem.joint_nonmaterial_cost |
USD |
Cost of the joint. |
blade.internal_structure_2d_fem.d_f |
m |
Diameter of the fastener |
blade.internal_structure_2d_fem.sigma_max |
Pa |
Max stress on bolt |
blade.internal_structure_2d_fem.layer_side |
Unavailable |
1D array setting whether the layer is on the suction or pressure side. This entry is only used if definition_layer is equal to 1 or 2. |
blade.internal_structure_2d_fem.definition_web |
Unavailable |
1D array of flags identifying how webs are specified in the yaml. 1) offset+rotation=twist 2) offset+rotation |
blade.internal_structure_2d_fem.definition_layer |
Unavailable |
1D array of flags identifying how layers are specified in the yaml. 1) all around (skin, paint, ) 2) offset+rotation twist+width (spar caps) 3) offset+user defined rotation+width 4) midpoint TE+width (TE reinf) 5) midpoint LE+width (LE reinf) 6) layer position fixed to other layer (core fillers) 7) start and width 8) end and width 9) start and end nd 10) web layer |
blade.internal_structure_2d_fem.index_layer_start |
Unavailable |
Index used to fix a layer to another |
blade.internal_structure_2d_fem.index_layer_end |
Unavailable |
Index used to fix a layer to another |
blade.internal_structure_2d_fem.joint_bolt |
Unavailable |
Type of bolt: M30, M36, or M48 |
blade.internal_structure_2d_fem.reinforcement_layer_ss |
Unavailable |
Layer identifier for the reinforcement layer at the join where bolts are inserted, suction side |
blade.internal_structure_2d_fem.reinforcement_layer_ps |
Unavailable |
Layer identifier for the reinforcement layer at the join where bolts are inserted, pressure side |
blade.internal_structure_2d_fem.web_rotation |
rad |
2D array of the rotation angle of the shear webs in respect to the chord line. The first dimension represents each shear web, the second dimension represents each entry along blade span. If the rotation is equal to negative twist +- a constant, then the web is built straight. |
blade.internal_structure_2d_fem.web_start_nd |
2D array of the non-dimensional start point defined along the outer profile of a web. The TE suction side is 0, the TE pressure side is 1. The first dimension represents each web, the second dimension represents each entry along blade span. |
|
blade.internal_structure_2d_fem.web_end_nd |
2D array of the non-dimensional end point defined along the outer profile of a web. The TE suction side is 0, the TE pressure side is 1. The first dimension represents each web, the second dimension represents each entry along blade span. |
|
blade.internal_structure_2d_fem.web_offset_y_pa |
m |
2D array of the offset along the y axis to set the position of the shear webs. Positive values move the web towards the trailing edge, negative values towards the leading edge. The first dimension represents each shear web, the second dimension represents each entry along blade span. |
blade.internal_structure_2d_fem.layer_rotation |
rad |
2D array of the rotation angle of a layer in respect to the chord line. The first dimension represents each layer, the second dimension represents each entry along blade span. If the rotation is equal to negative twist +- a constant, then the layer is built straight. |
blade.internal_structure_2d_fem.layer_start_nd |
2D array of the non-dimensional start point defined along the outer profile of a layer. The TE suction side is 0, the TE pressure side is 1. The first dimension represents each layer, the second dimension represents each entry along blade span. |
|
blade.internal_structure_2d_fem.layer_end_nd |
2D array of the non-dimensional end point defined along the outer profile of a layer. The TE suction side is 0, the TE pressure side is 1. The first dimension represents each layer, the second dimension represents each entry along blade span. |
|
blade.internal_structure_2d_fem.layer_offset_y_pa |
m |
2D array of the offset along the y axis to set the position of a layer. Positive values move the layer towards the trailing edge, negative values towards the leading edge. The first dimension represents each layer, the second dimension represents each entry along blade span. |
blade.internal_structure_2d_fem.layer_width |
m |
2D array of the width along the outer profile of a layer. The first dimension represents each layer, the second dimension represents each entry along blade span. |
blade.ps.layer_thickness_param |
m |
2D array of the thickness of the layers of the blade structure after the parametrization. The first dimension represents each layer, the second dimension represents each entry along blade span. |
blade.fatigue.sparU_sigma_ult |
Pa |
|
blade.fatigue.sparU_wohlerA |
Pa |
|
blade.fatigue.sparU_wohlerexp |
||
blade.fatigue.sparL_sigma_ult |
Pa |
|
blade.fatigue.sparL_wohlerA |
Pa |
|
blade.fatigue.sparL_wohlerexp |
||
blade.fatigue.teU_sigma_ult |
Pa |
|
blade.fatigue.teU_wohlerA |
Pa |
|
blade.fatigue.teU_wohlerexp |
||
blade.fatigue.teL_sigma_ult |
Pa |
|
blade.fatigue.teL_wohlerA |
Pa |
|
blade.fatigue.teL_wohlerexp |
||
nacelle.uptilt |
rad |
Nacelle uptilt angle. A standard machine has positive values. |
nacelle.distance_tt_hub |
m |
Vertical distance from tower top plane to hub flange |
nacelle.overhang |
m |
Horizontal distance from tower top edge to hub flange |
nacelle.gearbox_efficiency |
Efficiency of the gearbox. Set to 1.0 for direct-drive |
|
nacelle.gearbox_mass_user |
kg |
User override of gearbox mass. |
nacelle.gearbox_torque_density |
N*m/kg |
Torque density of the gearbox. |
nacelle.gearbox_radius_user |
m |
User override of gearbox radius (only used if gearbox_mass_user is > 0). |
nacelle.gearbox_length_user |
m |
User override of gearbox length (only used if gearbox_mass_user is > 0). |
nacelle.gear_ratio |
Total gear ratio of drivetrain (use 1.0 for direct) |
|
nacelle.distance_hub2mb |
m |
Distance from hub flange to first main bearing along shaft |
nacelle.distance_mb2mb |
m |
Distance from first to second main bearing along shaft |
nacelle.L_generator |
m |
Generator length along shaft |
nacelle.lss_diameter |
m |
Diameter of low speed shaft |
nacelle.lss_wall_thickness |
m |
Thickness of low speed shaft |
nacelle.damping_ratio |
Damping ratio for the drivetrain system |
|
nacelle.brake_mass_user |
kg |
Override regular regression-based calculation of brake mass with this value |
nacelle.hvac_mass_coeff |
kg/kW/m |
Regression-based scaling coefficient on machine rating to get HVAC system mass |
nacelle.converter_mass_user |
kg |
Override regular regression-based calculation of converter mass with this value |
nacelle.transformer_mass_user |
kg |
Override regular regression-based calculation of transformer mass with this value |
nacelle.nose_diameter |
m |
Diameter of nose (also called turret or spindle) |
nacelle.nose_wall_thickness |
m |
Thickness of nose (also called turret or spindle) |
nacelle.bedplate_wall_thickness |
m |
Thickness of hollow elliptical bedplate |
nacelle.mb1Type |
Unavailable |
Type of main bearing: CARB / CRB / SRB / TRB |
nacelle.mb2Type |
Unavailable |
Type of main bearing: CARB / CRB / SRB / TRB |
nacelle.uptower |
Unavailable |
If power electronics are located uptower (True) or at tower base (False) |
nacelle.lss_material |
Unavailable |
Material name identifier for the low speed shaft |
nacelle.hss_material |
Unavailable |
Material name identifier for the high speed shaft |
nacelle.bedplate_material |
Unavailable |
Material name identifier for the bedplate |
generator.B_r |
T |
|
generator.P_Fe0e |
W/kg |
|
generator.P_Fe0h |
W/kg |
|
generator.S_N |
||
generator.alpha_p |
||
generator.b_r_tau_r |
||
generator.b_ro |
m |
|
generator.b_s_tau_s |
||
generator.b_so |
m |
|
generator.cofi |
||
generator.freq |
Hz |
|
generator.h_i |
m |
|
generator.h_sy0 |
||
generator.h_w |
m |
|
generator.k_fes |
||
generator.k_fillr |
||
generator.k_fills |
||
generator.k_s |
||
generator.mu_0 |
m*kg/s**2/A**2 |
|
generator.mu_r |
m*kg/s**2/A**2 |
|
generator.p |
||
generator.phi |
rad |
|
generator.ratio_mw2pp |
||
generator.resist_Cu |
ohm/m |
|
generator.sigma |
Pa |
|
generator.y_tau_p |
||
generator.y_tau_pr |
||
generator.I_0 |
A |
|
generator.d_r |
m |
|
generator.h_m |
m |
|
generator.h_0 |
m |
|
generator.h_s |
m |
|
generator.len_s |
m |
|
generator.n_r |
||
generator.rad_ag |
m |
|
generator.t_wr |
m |
|
generator.n_s |
||
generator.b_st |
m |
|
generator.d_s |
m |
|
generator.t_ws |
m |
|
generator.rho_Copper |
kg/m**3 |
|
generator.rho_Fe |
kg/m**3 |
|
generator.rho_Fes |
kg/m**3 |
|
generator.rho_PM |
kg/m**3 |
|
generator.C_Cu |
USD/kg |
|
generator.C_Fe |
USD/kg |
|
generator.C_Fes |
USD/kg |
|
generator.C_PM |
USD/kg |
|
generator.N_c |
||
generator.b |
||
generator.c |
||
generator.E_p |
V |
|
generator.h_yr |
m |
|
generator.h_ys |
m |
|
generator.h_sr |
m |
Structural Mass |
generator.h_ss |
m |
|
generator.t_r |
m |
|
generator.t_s |
m |
|
generator.u_allow_pcent |
||
generator.y_allow_pcent |
||
generator.z_allow_deg |
deg |
|
generator.B_tmax |
T |
|
generator.m |
Unavailable |
|
generator.q1 |
Unavailable |
|
generator.q2 |
Unavailable |
|
tower.ref_axis |
m |
2D array of the coordinates (x,y,z) of the tower reference axis. The coordinate system is the global coordinate system of OpenFAST: it is placed at tower base with x pointing downwind, y pointing on the side and z pointing vertically upwards. A standard tower configuration will have zero x and y values and positive z values. |
tower.diameter |
m |
1D array of the outer diameter values defined along the tower axis. |
tower.cd |
1D array of the drag coefficients defined along the tower height. |
|
tower.layer_thickness |
m |
2D array of the thickness of the layers of the tower structure. The first dimension represents each layer, the second dimension represents each piecewise-constant entry of the tower sections. |
tower.outfitting_factor |
Multiplier that accounts for secondary structure mass inside of tower |
|
tower.layer_name |
Unavailable |
1D array of the names of the layers modeled in the tower structure. |
tower.layer_mat |
Unavailable |
1D array of the names of the materials of each layer modeled in the tower structure. |
monopile.diameter |
m |
1D array of the outer diameter values defined along the tower axis. |
monopile.layer_thickness |
m |
2D array of the thickness of the layers of the tower structure. The first dimension represents each layer, the second dimension represents each piecewise-constant entry of the tower sections. |
monopile.outfitting_factor |
Multiplier that accounts for secondary structure mass inside of tower |
|
monopile.transition_piece_mass |
kg |
point mass of transition piece |
monopile.transition_piece_cost |
USD |
cost of transition piece |
monopile.gravity_foundation_mass |
kg |
extra mass of gravity foundation |
monopile.layer_name |
Unavailable |
1D array of the names of the layers modeled in the tower structure. |
monopile.layer_mat |
Unavailable |
1D array of the names of the materials of each layer modeled in the tower structure. |
monopile.s |
1D array of the non-dimensional grid defined along the tower axis (0-tower base, 1-tower top) |
|
monopile.height |
m |
Scalar of the tower height computed along the z axis. |
monopile.length |
m |
Scalar of the tower length computed along its curved axis. A standard straight tower will be as high as long. |
monopile.foundation_height |
m |
Foundation height in respect to the ground level. |
env.rho_air |
kg/m**3 |
Density of air |
env.mu_air |
kg/m/s |
Dynamic viscosity of air |
env.shear_exp |
Shear exponent of the wind. |
|
env.speed_sound_air |
m/s |
Speed of sound in air. |
env.weibull_k |
Shape parameter of the Weibull probability density function of the wind. |
|
env.rho_water |
kg/m**3 |
Density of ocean water |
env.mu_water |
kg/m/s |
Dynamic viscosity of ocean water |
env.water_depth |
m |
Water depth for analysis. Values > 0 mean offshore |
env.Hsig_wave |
m |
Significant wave height |
env.Tsig_wave |
s |
Significant wave period |
env.G_soil |
N/m**2 |
Shear stress of soil |
env.nu_soil |
Poisson ratio of soil |
|
bos.plant_turbine_spacing |
Distance between turbines in rotor diameters |
|
bos.plant_row_spacing |
Distance between turbine rows in rotor diameters |
|
bos.commissioning_pct |
||
bos.decommissioning_pct |
||
bos.distance_to_substation |
km |
|
bos.distance_to_interconnection |
km |
|
bos.site_distance |
km |
|
bos.distance_to_landfall |
km |
|
bos.port_cost_per_month |
USD/mo |
|
bos.site_auction_price |
USD |
|
bos.site_assessment_plan_cost |
USD |
|
bos.site_assessment_cost |
USD |
|
bos.construction_operations_plan_cost |
USD |
|
bos.boem_review_cost |
USD |
|
bos.design_install_plan_cost |
USD |
|
costs.offset_tcc_per_kW |
USD/kW |
Offset to turbine capital cost |
costs.bos_per_kW |
USD/kW |
Balance of station/plant capital cost |
costs.opex_per_kW |
USD/kW/year |
Average annual operational expenditures of the turbine |
costs.wake_loss_factor |
The losses in AEP due to waked conditions |
|
costs.fixed_charge_rate |
Fixed charge rate for coe calculation |
|
costs.labor_rate |
USD/h |
|
costs.painting_rate |
USD/m**2 |
|
costs.blade_mass_cost_coeff |
USD/kg |
|
costs.hub_mass_cost_coeff |
USD/kg |
|
costs.pitch_system_mass_cost_coeff |
USD/kg |
|
costs.spinner_mass_cost_coeff |
USD/kg |
|
costs.lss_mass_cost_coeff |
USD/kg |
|
costs.bearing_mass_cost_coeff |
USD/kg |
|
costs.gearbox_torque_cost |
USD/kN/m |
|
costs.hss_mass_cost_coeff |
USD/kg |
|
costs.generator_mass_cost_coeff |
USD/kg |
|
costs.bedplate_mass_cost_coeff |
USD/kg |
|
costs.yaw_mass_cost_coeff |
USD/kg |
|
costs.converter_mass_cost_coeff |
USD/kg |
|
costs.transformer_mass_cost_coeff |
USD/kg |
|
costs.hvac_mass_cost_coeff |
USD/kg |
|
costs.cover_mass_cost_coeff |
USD/kg |
|
costs.elec_connec_machine_rating_cost_coeff |
USD/kW |
|
costs.platforms_mass_cost_coeff |
USD/kg |
|
costs.tower_mass_cost_coeff |
USD/kg |
|
costs.controls_machine_rating_cost_coeff |
USD/kW |
|
costs.crane_cost |
USD |
|
costs.electricity_price |
USD/kW/h |
|
costs.reserve_margin_price |
USD/kW/year |
|
costs.capacity_credit |
||
costs.benchmark_price |
USD/kW/h |
|
costs.turbine_number |
Unavailable |
Number of turbines at plant |
high_level_tower_props.tower_ref_axis |
m |
2D array of the coordinates (x,y,z) of the tower reference axis. The coordinate system is the global coordinate system of OpenFAST: it is placed at tower base with x pointing downwind, y pointing on the side and z pointing vertically upwards. A standard tower configuration will have zero x and y values and positive z values. |
high_level_tower_props.hub_height |
m |
Height of the hub in the global reference system, i.e. distance rotor center to ground. |
af_3d.cl_corrected |
Lift coefficient corrected with CCBlade.Polar. |
|
af_3d.cd_corrected |
Drag coefficient corrected with CCBlade.Polar. |
|
af_3d.cm_corrected |
Moment coefficient corrected with CCblade.Polar. |
|
tower_grid.s |
1D array of the non-dimensional grid defined along the tower axis (0-tower base, 1-tower top) |
|
tower_grid.height |
m |
Scalar of the tower height computed along the z axis. |
tower_grid.length |
m |
Scalar of the tower length computed along its curved axis. A standard straight tower will be as high as long. |
tower_grid.foundation_height |
m |
Foundation height in respect to the ground level. |
rotorse.hubloss |
Unavailable |
|
rotorse.tiploss |
Unavailable |
|
rotorse.wakerotation |
Unavailable |
|
rotorse.usecd |
Unavailable |
|
rotorse.nSector |
Unavailable |
|
rotorse.theta |
rad |
Twist angle at each section (positive decreases angle of attack) |
rotorse.ccblade.CP |
Rotor power coefficient |
|
rotorse.ccblade.CM |
Blade flapwise moment coefficient |
|
rotorse.ccblade.local_airfoil_velocities |
m/s |
Local relative velocities for the airfoils |
rotorse.ccblade.P |
W |
Rotor aerodynamic power |
rotorse.ccblade.T |
N*m |
Rotor aerodynamic thrust |
rotorse.ccblade.Q |
N*m |
Rotor aerodynamic torque |
rotorse.ccblade.M |
N*m |
Blade root flapwise moment |
rotorse.ccblade.a |
Axial induction along blade span |
|
rotorse.ccblade.ap |
Tangential induction along blade span |
|
rotorse.ccblade.alpha |
deg |
Angles of attack along blade span |
rotorse.ccblade.cl |
Lift coefficients along blade span |
|
rotorse.ccblade.cd |
Drag coefficients along blade span |
|
rotorse.ccblade.cl_n_opt |
Lift coefficients along blade span |
|
rotorse.ccblade.cd_n_opt |
Drag coefficients along blade span |
|
rotorse.ccblade.Px_b |
N/m |
Distributed loads in blade-aligned x-direction |
rotorse.ccblade.Py_b |
N/m |
Distributed loads in blade-aligned y-direction |
rotorse.ccblade.Pz_b |
N/m |
Distributed loads in blade-aligned z-direction |
rotorse.ccblade.Px_af |
N/m |
Distributed loads in airfoil x-direction |
rotorse.ccblade.Py_af |
N/m |
Distributed loads in airfoil y-direction |
rotorse.ccblade.Pz_af |
N/m |
Distributed loads in airfoil z-direction |
rotorse.ccblade.LiftF |
N/m |
Distributed lift force |
rotorse.ccblade.DragF |
N/m |
Distributed drag force |
rotorse.ccblade.L_n_opt |
N/m |
Distributed lift force |
rotorse.ccblade.D_n_opt |
N/m |
Distributed drag force |
rotorse.wt_class.V_mean |
m/s |
|
rotorse.wt_class.V_extreme1 |
m/s |
|
rotorse.wt_class.V_extreme50 |
m/s |
|
rotorse.re.precomp.z |
m |
locations of properties along beam |
rotorse.A |
m**2 |
cross sectional area |
rotorse.EA |
N |
axial stiffness |
rotorse.EIxx |
N*m**2 |
edgewise stiffness (bending about x-direction of airfoil aligned coordinate system) |
rotorse.EIyy |
N*m**2 |
flapwise stiffness (bending about y-direction of airfoil aligned coordinate system) |
rotorse.EIxy |
N*m**2 |
coupled flap-edge stiffness |
rotorse.GJ |
N*m**2 |
torsional stiffness (about axial z-direction of airfoil aligned coordinate system) |
rotorse.rhoA |
kg/m |
mass per unit length |
rotorse.rhoJ |
kg*m |
polar mass moment of inertia per unit length |
rotorse.re.Tw_iner |
m |
Orientation of the section principal inertia axes with respect the blade reference plane |
rotorse.x_ec |
m |
x-distance to elastic center from point about which above structural properties are computed (airfoil aligned coordinate system) |
rotorse.y_ec |
m |
y-distance to elastic center from point about which above structural properties are computed |
rotorse.re.x_tc |
m |
X-coordinate of the tension-center offset with respect to the XR-YR axes |
rotorse.re.y_tc |
m |
Chordwise offset of the section tension-center with respect to the XR-YR axes |
rotorse.re.x_sc |
m |
X-coordinate of the shear-center offset with respect to the XR-YR axes |
rotorse.re.y_sc |
m |
Chordwise offset of the section shear-center with respect to the reference frame, XR-YR |
rotorse.re.x_cg |
m |
X-coordinate of the center-of-mass offset with respect to the XR-YR axes |
rotorse.re.y_cg |
m |
Chordwise offset of the section center of mass with respect to the XR-YR axes |
rotorse.re.precomp.flap_iner |
kg/m |
Section flap inertia about the Y_G axis per unit length. |
rotorse.re.precomp.edge_iner |
kg/m |
Section lag inertia about the X_G axis per unit length |
rotorse.xu_spar |
x-position of midpoint of spar cap on upper surface for strain calculation |
|
rotorse.xl_spar |
x-position of midpoint of spar cap on lower surface for strain calculation |
|
rotorse.yu_spar |
y-position of midpoint of spar cap on upper surface for strain calculation |
|
rotorse.yl_spar |
y-position of midpoint of spar cap on lower surface for strain calculation |
|
rotorse.xu_te |
x-position of midpoint of trailing-edge panel on upper surface for strain calculation |
|
rotorse.xl_te |
x-position of midpoint of trailing-edge panel on lower surface for strain calculation |
|
rotorse.yu_te |
y-position of midpoint of trailing-edge panel on upper surface for strain calculation |
|
rotorse.yl_te |
y-position of midpoint of trailing-edge panel on lower surface for strain calculation |
|
rotorse.blade_mass |
kg |
mass of one blade |
rotorse.blade_span_cg |
m |
Distance along the blade span for its center of gravity |
rotorse.blade_moment_of_inertia |
kg*m**2 |
mass moment of inertia of blade about hub |
rotorse.mass_all_blades |
kg |
mass of all blades |
rotorse.I_all_blades |
kg*m**2 |
mass moments of inertia of all blades in hub c.s. order:Ixx, Iyy, Izz, Ixy, Ixz, Iyz |
rotorse.re.sc_ss_mats |
spar cap, suction side, boolean of materials in each composite layer spanwise, passed as floats for differentiablity, used for Fatigue Analysis |
|
rotorse.re.sc_ps_mats |
spar cap, pressure side, boolean of materials in each composite layer spanwise, passed as floats for differentiablity, used for Fatigue Analysis |
|
rotorse.re.te_ss_mats |
trailing edge reinforcement, suction side, boolean of materials in each composite layer spanwise, passed as floats for differentiablity, used for Fatigue Analysis |
|
rotorse.re.te_ps_mats |
trailing edge reinforcement, pressure side, boolean of materials in each composite layer spanwise, passed as floats for differentiablity, used for Fatigue Analysis |
|
rotorse.rp.powercurve.V |
m/s |
wind vector |
rotorse.rp.powercurve.Omega |
rpm |
rotor rotational speed |
rotorse.rp.powercurve.pitch |
deg |
rotor pitch schedule |
rotorse.rp.powercurve.P |
W |
rotor electrical power |
rotorse.rp.powercurve.P_aero |
W |
rotor mechanical power |
rotorse.rp.powercurve.T |
N |
rotor aerodynamic thrust |
rotorse.rp.powercurve.Q |
N*m |
rotor aerodynamic torque |
rotorse.rp.powercurve.M |
N*m |
blade root moment |
rotorse.rp.powercurve.Cp |
rotor electrical power coefficient |
|
rotorse.rp.powercurve.Cp_aero |
rotor aerodynamic power coefficient |
|
rotorse.rp.powercurve.Ct_aero |
rotor aerodynamic thrust coefficient |
|
rotorse.rp.powercurve.Cq_aero |
rotor aerodynamic torque coefficient |
|
rotorse.rp.powercurve.Cm_aero |
rotor aerodynamic moment coefficient |
|
rotorse.rp.powercurve.ax_induct_rotor |
rotor aerodynamic induction |
|
rotorse.rp.powercurve.V_R25 |
m/s |
region 2.5 transition wind speed |
rotorse.rp.powercurve.rated_V |
m/s |
rated wind speed |
rotorse.rp.powercurve.rated_Omega |
rpm |
rotor rotation speed at rated |
rotorse.rp.powercurve.rated_pitch |
deg |
pitch setting at rated |
rotorse.rp.powercurve.rated_T |
N |
rotor aerodynamic thrust at rated |
rotorse.rp.powercurve.rated_Q |
N*m |
rotor aerodynamic torque at rated |
rotorse.rp.powercurve.rated_mech |
W |
Mechanical shaft power at rated |
rotorse.rp.powercurve.ax_induct_regII |
rotor axial induction at cut-in wind speed along blade span |
|
rotorse.rp.powercurve.tang_induct_regII |
rotor tangential induction at cut-in wind speed along blade span |
|
rotorse.rp.powercurve.aoa_regII |
deg |
angle of attack distribution along blade span at cut-in wind speed |
rotorse.rp.powercurve.L_D |
Lift over drag distribution along blade span at cut-in wind speed |
|
rotorse.rp.powercurve.Cp_regII |
power coefficient at cut-in wind speed |
|
rotorse.rp.powercurve.Ct_regII |
thrust coefficient at cut-in wind speed |
|
rotorse.rp.powercurve.cl_regII |
lift coefficient distribution along blade span at cut-in wind speed |
|
rotorse.rp.powercurve.cd_regII |
drag coefficient distribution along blade span at cut-in wind speed |
|
rotorse.rp.powercurve.rated_efficiency |
Efficiency at rated conditions |
|
rotorse.rp.powercurve.V_spline |
m/s |
wind vector |
rotorse.rp.powercurve.P_spline |
W |
rotor electrical power |
rotorse.rp.powercurve.Omega_spline |
rpm |
omega |
rotorse.rp.gust.V_gust |
m/s |
gust wind speed |
rotorse.rp.cdf.F |
m/s |
magnitude of wind speed at each z location |
rotorse.rp.AEP |
kW*h |
annual energy production |
rotorse.stall_check.no_stall_constraint |
Constraint, ratio between angle of attack plus a margin and stall angle |
|
rotorse.stall_check.stall_angle_along_span |
deg |
Stall angle along blade span |
rotorse.rs.aero_gust.loads_r |
m |
|
rotorse.rs.aero_gust.loads_Px |
N/m |
|
rotorse.rs.aero_gust.loads_Py |
N/m |
|
rotorse.rs.aero_gust.loads_Pz |
N/m |
|
rotorse.rs.3d_curv |
deg |
total cone angle from precone and curvature |
rotorse.rs.x_az |
m |
location of blade in azimuth x-coordinate system |
rotorse.rs.y_az |
m |
location of blade in azimuth y-coordinate system |
rotorse.rs.z_az |
m |
location of blade in azimuth z-coordinate system |
rotorse.rs.curvature.s |
m |
cumulative path length along blade |
rotorse.rs.curvature.blades_cg_hubcc |
m |
cg of all blades relative to hub along shaft axis. Distance is should be interpreted as negative for upwind and positive for downwind turbines |
rotorse.rs.tot_loads_gust.Px_af |
N/m |
total distributed loads in airfoil x-direction |
rotorse.rs.tot_loads_gust.Py_af |
N/m |
total distributed loads in airfoil y-direction |
rotorse.rs.tot_loads_gust.Pz_af |
N/m |
total distributed loads in airfoil z-direction |
rotorse.rs.frame.root_F |
N |
Blade root forces in blade c.s. |
rotorse.rs.frame.root_M |
N*m |
Blade root moment in blade c.s. |
rotorse.rs.frame.flap_mode_shapes |
6-degree polynomial coefficients of mode shapes in the flap direction (x^2..x^6, no linear or constant term) |
|
rotorse.rs.frame.edge_mode_shapes |
6-degree polynomial coefficients of mode shapes in the edge direction (x^2..x^6, no linear or constant term) |
|
rotorse.rs.frame.tors_mode_shapes |
6-degree polynomial coefficients of mode shapes in the torsional direction (x^2..x^6, no linear or constant term) |
|
rotorse.rs.frame.all_mode_shapes |
6-degree polynomial coefficients of mode shapes in the edge direction (x^2..x^6, no linear or constant term) |
|
rotorse.rs.frame.flap_mode_freqs |
Hz |
Frequencies associated with mode shapes in the flap direction |
rotorse.rs.frame.edge_mode_freqs |
Hz |
Frequencies associated with mode shapes in the edge direction |
rotorse.rs.frame.tors_mode_freqs |
Hz |
Frequencies associated with mode shapes in the torsional direction |
rotorse.rs.frame.freqs |
Hz |
ration of 2nd and 1st natural frequencies, should be ratio of edgewise to flapwise |
rotorse.rs.frame.freq_distance |
ration of 2nd and 1st natural frequencies, should be ratio of edgewise to flapwise |
|
rotorse.rs.frame.dx |
m |
deflection of blade section in airfoil x-direction |
rotorse.rs.frame.dy |
m |
deflection of blade section in airfoil y-direction |
rotorse.rs.frame.dz |
m |
deflection of blade section in airfoil z-direction |
rotorse.rs.frame.EI11 |
N*m**2 |
stiffness w.r.t principal axis 1 |
rotorse.rs.frame.EI22 |
N*m**2 |
stiffness w.r.t principal axis 2 |
rotorse.rs.frame.alpha |
deg |
Angle between blade c.s. and principal axes |
rotorse.rs.frame.M1 |
N*m |
distribution along blade span of bending moment w.r.t principal axis 1 |
rotorse.rs.frame.M2 |
N*m |
distribution along blade span of bending moment w.r.t principal axis 2 |
rotorse.rs.frame.F2 |
N |
distribution along blade span of force w.r.t principal axis 2 |
rotorse.rs.frame.F3 |
N |
axial resultant along blade span |
rotorse.rs.strains.strainU_spar |
strain in spar cap on upper surface at location xu,yu_strain with loads P_strain |
|
rotorse.rs.strains.strainL_spar |
strain in spar cap on lower surface at location xl,yl_strain with loads P_strain |
|
rotorse.rs.strains.strainU_te |
strain in trailing-edge panels on upper surface at location xu,yu_te with loads P_te |
|
rotorse.rs.strains.strainL_te |
strain in trailing-edge panels on lower surface at location xl,yl_te with loads P_te |
|
rotorse.rs.strains.axial_root_sparU_load2stress |
m**2 |
Linear conversion factors between loads [Fx-z; Mx-z] and axial stress in the upper spar cap at blade root |
rotorse.rs.strains.axial_root_sparL_load2stress |
m**2 |
Linear conversion factors between loads [Fx-z; Mx-z] and axial stress in the lower spar cap at blade root |
rotorse.rs.strains.axial_maxc_teU_load2stress |
m**2 |
Linear conversion factors between loads [Fx-z; Mx-z] and axial stress in the upper trailing edge at blade max chord |
rotorse.rs.strains.axial_maxc_teL_load2stress |
m**2 |
Linear conversion factors between loads [Fx-z; Mx-z] and axial stress in the lower trailing edge at blade max chord |
rotorse.rs.tip_pos.tip_deflection |
m |
deflection at tip in yaw x-direction |
rotorse.rs.aero_hub_loads.P |
W |
Rotor aerodynamic power |
rotorse.rs.aero_hub_loads.Mb |
N/m |
Aerodynamic blade root flapwise moment |
rotorse.rs.aero_hub_loads.Fhub |
N |
Aerodynamic forces at hub center in the hub c.s. |
rotorse.rs.aero_hub_loads.Mhub |
N*m |
Aerodynamic moments at hub center in the hub c.s. |
rotorse.rs.aero_hub_loads.CP |
Rotor aerodynamic power coefficient |
|
rotorse.rs.aero_hub_loads.CMb |
Aerodynamic blade root flapwise moment coefficient |
|
rotorse.rs.aero_hub_loads.CFhub |
Aerodynamic force coefficients at hub center in the hub c.s. |
|
rotorse.rs.aero_hub_loads.CMhub |
Aerodynamic moment coefficients at hub center in the hub c.s. |
|
rotorse.rs.constr.constr_max_strainU_spar |
constraint for maximum strain in spar cap suction side |
|
rotorse.rs.constr.constr_max_strainL_spar |
constraint for maximum strain in spar cap pressure side |
|
rotorse.rs.constr.constr_max_strainU_te |
constraint for maximum strain in trailing edge suction side |
|
rotorse.rs.constr.constr_max_strainL_te |
constraint for maximum strain in trailing edge pressure side |
|
rotorse.rs.constr.constr_flap_f_margin |
constraint on flap blade frequency such that ratio of 3P/f is above or below gamma with constraint <= 0 |
|
rotorse.rs.constr.constr_edge_f_margin |
constraint on edge blade frequency such that ratio of 3P/f is above or below gamma with constraint <= 0 |
|
rotorse.rs.brs.d_r |
m |
Root fastener circle diameter |
rotorse.rs.brs.ratio |
Ratio of recommended diameter over actual diameter. It can be constrained to be smaller than 1 |
|
rotorse.rc.sect_perimeter |
m |
Perimeter of the section along the blade span |
rotorse.rc.layer_volume |
m**3 |
Volumes of each layer used in the blade, ignoring the scrap factor |
rotorse.rc.mat_volume |
m**3 |
Volumes of each material used in the blade, ignoring the scrap factor. For laminates, this is the wet volume |
rotorse.rc.mat_mass |
kg |
Masses of each material used in the blade, ignoring the scrap factor. For laminates, this is the wet mass. |
rotorse.rc.mat_cost |
USD |
Costs of each material used in the blade, ignoring the scrap factor. For laminates, this is the cost of the dry fabric. |
rotorse.rc.mat_cost_scrap |
USD |
Same as mat_cost, now including the scrap factor. |
rotorse.rc.total_labor_hours |
h |
Total amount of labor hours per blade. |
rotorse.rc.total_skin_mold_gating_ct |
h |
Total amount of gating cycle time per blade. This is the cycle time required in the main mold that cannot be parallelized unless the number of molds is increased. |
rotorse.rc.total_non_gating_ct |
h |
Total amount of non-gating cycle time per blade. This cycle time can happen in parallel. |
rotorse.rc.total_metallic_parts_cost |
USD |
Cost of the metallic parts (bolts, nuts, lightining protection system), excluding the blade joint. |
rotorse.rc.total_consumable_cost_w_waste |
USD |
Cost of the consumables including the waste. |
rotorse.rc.total_blade_mat_cost_w_waste |
USD |
Total blade material costs including the waste per blade. |
rotorse.rc.total_cost_labor |
USD |
Total labor costs per blade. |
rotorse.rc.total_cost_utility |
USD |
Total utility costs per blade. |
rotorse.rc.blade_variable_cost |
USD |
Total blade variable costs per blade (material, labor, utility). |
rotorse.rc.total_cost_equipment |
USD |
Total equipment cost per blade. |
rotorse.rc.total_cost_tooling |
USD |
Total tooling cost per blade. |
rotorse.rc.total_cost_building |
USD |
Total builting cost per blade. |
rotorse.rc.total_maintenance_cost |
USD |
Total maintenance cost per blade. |
rotorse.rc.total_labor_overhead |
USD |
Total labor overhead cost per blade. |
rotorse.rc.cost_capital |
USD |
Cost of capital per blade. |
rotorse.rc.blade_fixed_cost |
USD |
Total blade fixed cost per blade (equipment, tooling, building, maintenance, labor, capital). |
rotorse.rc.total_blade_cost |
USD |
Total blade cost (variable and fixed) |
rotorse.total_bc.total_blade_cost |
USD |
Total blade cost (variable and fixed). For segmented blades, this is the total of inner+outer+joint |
drivese.hub_E |
Pa |
|
drivese.hub_G |
Pa |
|
drivese.hub_rho |
kg/m**3 |
|
drivese.hub_Xy |
Pa |
|
drivese.hub_wohler_exp |
||
drivese.hub_wohler_A |
||
drivese.hub_mat_cost |
USD/kg |
|
drivese.spinner_rho |
kg/m**3 |
|
drivese.spinner_Xt |
Pa |
|
drivese.spinner_mat_cost |
USD/kg |
|
drivese.lss_E |
Pa |
|
drivese.lss_G |
Pa |
|
drivese.lss_rho |
kg/m**3 |
|
drivese.lss_Xy |
Pa |
|
drivese.lss_Xt |
Pa |
|
drivese.lss_wohler_exp |
||
drivese.lss_wohler_A |
||
drivese.lss_cost |
USD/kg |
|
drivese.hss_E |
Pa |
|
drivese.hss_G |
Pa |
|
drivese.hss_rho |
kg/m**3 |
|
drivese.hss_Xy |
Pa |
|
drivese.hss_Xt |
Pa |
|
drivese.hss_wohler_exp |
||
drivese.hss_wohler_A |
||
drivese.hss_cost |
USD/kg |
|
drivese.bedplate_E |
Pa |
|
drivese.bedplate_G |
Pa |
|
drivese.bedplate_rho |
kg/m**3 |
|
drivese.bedplate_Xy |
Pa |
|
drivese.bedplate_mat_cost |
USD/kg |
|
drivese.max_torque |
N*m |
|
drivese.hub_mass |
kg |
|
drivese.hub_cost |
USD |
|
drivese.hub_cm |
m |
|
drivese.hub_I |
kg*m**2 |
|
drivese.constr_hub_diameter |
m |
|
drivese.spinner.spinner_diameter |
m |
|
drivese.spinner_mass |
kg |
|
drivese.spinner_cost |
kg |
|
drivese.spinner_cm |
m |
|
drivese.spinner_I |
kg*m**2 |
|
drivese.pitch_mass |
kg |
|
drivese.pitch_cost |
USD |
|
drivese.pitch_I |
kg*m**2 |
|
drivese.hub_system_mass |
kg |
|
drivese.hub_system_cost |
USD |
|
drivese.hub_system_cm |
m |
|
drivese.hub_system_I |
kg*m**2 |
|
drivese.stage_ratios |
||
drivese.gearbox_mass |
kg |
|
drivese.gearbox_I |
kg*m**2 |
|
drivese.L_gearbox |
m |
|
drivese.D_gearbox |
m |
|
drivese.carrier_mass |
kg |
|
drivese.carrier_I |
kg*m**2 |
|
drivese.L_lss |
m |
|
drivese.L_drive |
m |
|
drivese.s_lss |
m |
|
drivese.lss_mass |
kg |
|
drivese.lss_cm |
m |
|
drivese.lss_I |
kg*m**2 |
|
drivese.L_bedplate |
m |
|
drivese.H_bedplate |
m |
|
drivese.bedplate_mass |
kg |
|
drivese.bedplate_cm |
m |
|
drivese.bedplate_I |
kg*m**2 |
|
drivese.s_mb1 |
m |
|
drivese.s_mb2 |
m |
|
drivese.s_gearbox |
m |
|
drivese.s_generator |
m |
|
drivese.hss_mass |
kg |
|
drivese.hss_cm |
m |
|
drivese.hss_I |
kg*m**2 |
|
drivese.constr_length |
m |
|
drivese.constr_height |
m |
|
drivese.L_nose |
m |
|
drivese.D_bearing1 |
m |
|
drivese.D_bearing2 |
m |
|
drivese.s_nose |
m |
|
drivese.nose_mass |
kg |
|
drivese.nose_cm |
m |
|
drivese.nose_I |
kg*m**2 |
|
drivese.x_bedplate |
m |
|
drivese.z_bedplate |
m |
|
drivese.x_bedplate_inner |
m |
|
drivese.z_bedplate_inner |
m |
|
drivese.x_bedplate_outer |
m |
|
drivese.z_bedplate_outer |
m |
|
drivese.D_bedplate |
m |
|
drivese.t_bedplate |
m |
|
drivese.s_stator |
m |
|
drivese.s_rotor |
m |
|
drivese.constr_access |
m |
|
drivese.constr_ecc |
m |
|
drivese.bear1.mb_max_defl_ang |
rad |
|
drivese.bear1.mb_mass |
kg |
|
drivese.bear1.mb_I |
kg*m**2 |
|
drivese.bear2.mb_max_defl_ang |
rad |
|
drivese.bear2.mb_mass |
kg |
|
drivese.bear2.mb_I |
kg*m**2 |
|
drivese.brake_mass |
kg |
|
drivese.brake_cm |
m |
|
drivese.brake_I |
kg*m**2 |
|
drivese.converter_mass |
kg |
|
drivese.converter_cm |
m |
|
drivese.converter_I |
kg*m**2 |
|
drivese.transformer_mass |
kg |
|
drivese.transformer_cm |
m |
|
drivese.transformer_I |
kg*m**2 |
|
drivese.yaw_mass |
kg |
|
drivese.yaw_cm |
m |
|
drivese.yaw_I |
kg*m**2 |
|
drivese.lss_rpm |
rpm |
|
drivese.hss_rpm |
rpm |
|
drivese.generator.v |
||
drivese.generator.B_rymax |
T |
|
drivese.generator.B_trmax |
T |
|
drivese.generator.B_tsmax |
T |
|
drivese.generator.B_g |
T |
|
drivese.generator.B_g1 |
T |
|
drivese.generator.B_pm1 |
||
drivese.generator.N_s |
||
drivese.generator.b_s |
m |
|
drivese.generator.b_t |
m |
|
drivese.generator.A_Curcalc |
mm**2 |
|
drivese.generator.A_Cuscalc |
mm**2 |
|
drivese.generator.b_m |
||
drivese.generator.mass_PM |
kg |
|
drivese.generator.Copper |
kg |
|
drivese.generator.Iron |
kg |
|
drivese.generator.Structural_mass |
kg |
|
drivese.generator_mass |
kg |
|
drivese.generator.f |
||
drivese.generator.I_s |
A |
|
drivese.generator.R_s |
ohm |
|
drivese.generator.L_s |
||
drivese.generator.J_s |
A/m**2 |
|
drivese.generator.A_1 |
||
drivese.generator.K_rad |
||
drivese.generator.Losses |
W |
|
drivese.generator.eandm_efficiency |
||
drivese.generator.u_ar |
m |
|
drivese.generator.u_as |
m |
|
drivese.generator.u_allow_r |
m |
|
drivese.generator.u_allow_s |
m |
|
drivese.generator.y_ar |
m |
|
drivese.generator.y_as |
m |
|
drivese.generator.y_allow_r |
m |
|
drivese.generator.y_allow_s |
m |
|
drivese.generator.z_ar |
m |
|
drivese.generator.z_as |
m |
|
drivese.generator.z_allow_r |
m |
|
drivese.generator.z_allow_s |
m |
|
drivese.generator.b_allow_r |
m |
|
drivese.generator.b_allow_s |
m |
|
drivese.generator.TC1 |
m**3 |
|
drivese.generator.TC2r |
m**3 |
|
drivese.generator.TC2s |
m**3 |
|
drivese.generator.R_out |
m |
|
drivese.generator.S |
||
drivese.generator.Slot_aspect_ratio |
||
drivese.generator.Slot_aspect_ratio1 |
||
drivese.generator.Slot_aspect_ratio2 |
||
drivese.generator.D_ratio |
||
drivese.generator.J_r |
||
drivese.generator.L_sm |
||
drivese.generator.Q_r |
||
drivese.generator.R_R |
||
drivese.generator.b_r |
||
drivese.generator.b_tr |
||
drivese.generator.b_trmin |
||
drivese.generator.B_smax |
T |
|
drivese.generator.B_symax |
T |
|
drivese.generator.tau_p |
m |
|
drivese.generator.q |
N/m**2 |
|
drivese.generator.len_ag |
m |
|
drivese.generator.h_t |
m |
|
drivese.generator.tau_s |
m |
|
drivese.generator.J_actual |
A/m**2 |
|
drivese.generator.T_e |
N*m |
|
drivese.generator.twist_r |
deg |
|
drivese.generator.twist_s |
deg |
|
drivese.generator.Structural_mass_rotor |
kg |
|
drivese.generator.Structural_mass_stator |
kg |
|
drivese.generator.Mass_tooth_stator |
kg |
|
drivese.generator.Mass_yoke_rotor |
kg |
|
drivese.generator.Mass_yoke_stator |
kg |
|
drivese.generator_rotor_mass |
kg |
|
drivese.generator_stator_mass |
kg |
|
drivese.generator_I |
kg*m**2 |
|
drivese.generator_rotor_I |
kg*m**2 |
|
drivese.generator_stator_I |
kg*m**2 |
|
drivese.generator_cost |
USD |
|
drivese.generator.con_uas |
m |
|
drivese.generator.con_zas |
m |
|
drivese.generator.con_yas |
m |
|
drivese.generator.con_bst |
m |
|
drivese.generator.con_uar |
m |
|
drivese.generator.con_yar |
m |
|
drivese.generator.con_zar |
m |
|
drivese.generator.con_br |
m |
|
drivese.generator.TCr |
m**3 |
|
drivese.generator.TCs |
m**3 |
|
drivese.generator.con_TC2r |
m**3 |
|
drivese.generator.con_TC2s |
m**3 |
|
drivese.generator.con_Bsmax |
T |
|
drivese.generator.K_rad_L |
||
drivese.generator.K_rad_U |
||
drivese.generator.D_ratio_L |
||
drivese.generator.D_ratio_U |
||
drivese.generator.converter_efficiency |
||
drivese.generator.transformer_efficiency |
||
drivese.generator_efficiency |
||
drivese.hvac_mass |
kg |
|
drivese.hvac_cm |
m |
|
drivese.hvac_I |
m |
|
drivese.platform_mass |
kg |
|
drivese.platform_cm |
m |
|
drivese.platform_I |
m |
|
drivese.cover_length |
m |
|
drivese.cover_height |
m |
|
drivese.cover_width |
m |
|
drivese.cover_mass |
kg |
|
drivese.cover_cm |
m |
|
drivese.cover_I |
m |
|
drivese.shaft_start |
m |
|
drivese.other_mass |
kg |
|
drivese.mean_bearing_mass |
kg |
|
drivese.total_bedplate_mass |
kg |
|
drivese.nacelle_mass |
kg |
|
drivese.above_yaw_mass |
kg |
|
drivese.nacelle_cm |
m |
|
drivese.above_yaw_cm |
m |
|
drivese.nacelle_I |
kg*m**2 |
|
drivese.nacelle_I_TT |
kg*m**2 |
|
drivese.above_yaw_I |
kg*m**2 |
|
drivese.above_yaw_I_TT |
kg*m**2 |
|
drivese.rotor_mass |
kg |
|
drivese.rna_mass |
kg |
|
drivese.rna_cm |
m |
|
drivese.rna_I_TT |
kg*m**2 |
|
drivese.lss_spring_constant |
N*m/rad |
|
drivese.torq_deflection |
m |
|
drivese.torq_angle |
rad |
|
drivese.lss_axial_stress |
Pa |
|
drivese.lss_shear_stress |
Pa |
|
drivese.constr_lss_vonmises |
||
drivese.F_mb1 |
N |
|
drivese.F_mb2 |
N |
|
drivese.F_torq |
N |
|
drivese.M_mb1 |
N*m |
|
drivese.M_mb2 |
N*m |
|
drivese.M_torq |
N*m |
|
drivese.lss_axial_load2stress |
m**2 |
|
drivese.lss_shear_load2stress |
m**2 |
|
drivese.constr_shaft_deflection |
||
drivese.constr_shaft_angle |
||
drivese.mb1_deflection |
m |
|
drivese.mb2_deflection |
m |
|
drivese.stator_deflection |
m |
|
drivese.mb1_angle |
rad |
|
drivese.mb2_angle |
rad |
|
drivese.stator_angle |
rad |
|
drivese.base_F |
N |
|
drivese.base_M |
N*m |
|
drivese.bedplate_nose_axial_stress |
Pa |
|
drivese.bedplate_nose_shear_stress |
Pa |
|
drivese.bedplate_nose_bending_stress |
Pa |
|
drivese.constr_bedplate_vonmises |
||
drivese.constr_mb1_defl |
||
drivese.constr_mb2_defl |
||
drivese.constr_stator_deflection |
||
drivese.constr_stator_angle |
||
drivese.drivetrain_spring_constant |
N*m/rad |
|
drivese.drivetrain_damping_coefficient |
N*m*s/rad |
|
towerse.height_constraint |
m |
|
towerse.transition_piece_height |
m |
|
towerse.z_start |
m |
|
towerse.joint1 |
m |
|
towerse.joint2 |
m |
|
towerse.member.s |
||
towerse.member.height |
m |
|
towerse.tower_section_height |
m |
|
towerse.tower_outer_diameter |
m |
|
towerse.tower_wall_thickness |
m |
|
towerse.member.E |
Pa |
|
towerse.member.G |
Pa |
|
towerse.member.sigma_y |
Pa |
|
towerse.member.sigma_ult |
Pa |
|
towerse.member.wohler_exp |
||
towerse.member.wohler_A |
||
towerse.member.rho |
kg/m**3 |
|
towerse.member.unit_cost |
USD/kg |
|
towerse.member.outfitting_factor |
||
towerse.member.ballast_density |
kg/m**3 |
|
towerse.member.ballast_unit_cost |
USD/kg |
|
towerse.z_param |
m |
|
towerse.member.sec_loc |
normalized sectional location |
|
towerse.member.str_tw |
deg |
structural twist of section |
towerse.member.tw_iner |
deg |
inertial twist of section |
towerse.member.mass_den |
kg/m |
sectional mass per unit length |
towerse.member.foreaft_iner |
kg*m |
sectional fore-aft intertia per unit length about the Y_G inertia axis |
towerse.member.sideside_iner |
kg*m |
sectional side-side intertia per unit length about the Y_G inertia axis |
towerse.member.foreaft_stff |
N*m**2 |
sectional fore-aft bending stiffness per unit length about the Y_E elastic axis |
towerse.member.sideside_stff |
N*m**2 |
sectional side-side bending stiffness per unit length about the Y_E elastic axis |
towerse.member.tor_stff |
N*m**2 |
sectional torsional stiffness |
towerse.member.axial_stff |
N |
sectional axial stiffness |
towerse.member.cg_offst |
m |
offset from the sectional center of mass |
towerse.member.sc_offst |
m |
offset from the sectional shear center |
towerse.member.tc_offst |
m |
offset from the sectional tension center |
towerse.member.axial_load2stress |
m**2 |
|
towerse.member.shear_load2stress |
m**2 |
|
towerse.constr_d_to_t |
||
towerse.constr_taper |
||
towerse.slope |
||
towerse.thickness_slope |
||
towerse.s_full |
m |
|
towerse.z_full |
m |
|
towerse.d_full |
m |
|
towerse.t_full |
m |
|
towerse.E_full |
Pa |
|
towerse.G_full |
Pa |
|
towerse.member.nu_full |
||
towerse.sigma_y_full |
Pa |
|
towerse.rho_full |
kg/m**3 |
|
towerse.member.unit_cost_full |
USD/kg |
|
towerse.outfitting_full |
||
towerse.member.nodes_r |
m |
|
towerse.nodes_xyz |
m |
|
towerse.z_global |
m |
|
towerse.member.center_of_buoyancy |
m |
|
towerse.member.displacement |
m**3 |
|
towerse.member.buoyancy_force |
N |
|
towerse.member.idx_cb |
||
towerse.member.Awater |
m**2 |
|
towerse.member.Iwater |
m**4 |
|
towerse.member.added_mass |
kg |
|
towerse.member.waterline_centroid |
m |
|
towerse.member.z_dim |
m |
|
towerse.member.d_eff |
m |
|
towerse.member.labor_hours |
h |
|
towerse.tower_cost |
USD |
|
towerse.tower_mass |
kg |
|
towerse.tower_center_of_mass |
m |
|
towerse.tower_I_base |
kg*m**2 |
|
towerse.member.section_D |
m |
|
towerse.member.section_t |
m |
|
towerse.section_A |
m**2 |
|
towerse.section_Asx |
m**2 |
|
towerse.section_Asy |
m**2 |
|
towerse.section_Ixx |
kg*m**2 |
|
towerse.section_Iyy |
kg*m**2 |
|
towerse.section_J0 |
kg*m**2 |
|
towerse.section_rho |
kg/m**3 |
|
towerse.section_E |
Pa |
|
towerse.section_G |
Pa |
|
towerse.member.section_sigma_y |
Pa |
|
towerse.turbine_mass |
kg |
|
towerse.turbine_center_of_mass |
m |
|
towerse.turbine_I_base |
kg*m**2 |
|
towerse.env.wind.U |
m/s |
|
towerse.env.windLoads.windLoads_Px |
N/m |
|
towerse.env.windLoads.windLoads_Py |
N/m |
|
towerse.env.windLoads.windLoads_Pz |
N/m |
|
towerse.env.windLoads.windLoads_qdyn |
N/m**2 |
|
towerse.env.windLoads.windLoads_z |
m |
|
towerse.env.windLoads.windLoads_beta |
deg |
|
towerse.env.Px |
N/m |
|
towerse.env.Py |
N/m |
|
towerse.env.Pz |
N/m |
|
towerse.env.qdyn |
N/m**2 |
|
towerse.g2e.Px |
N/m |
|
towerse.g2e.Py |
N/m |
|
towerse.g2e.Pz |
N/m |
|
towerse.g2e.qdyn |
Pa |
|
towerse.Px |
N/m |
|
towerse.Py |
N/m |
|
towerse.Pz |
N/m |
|
towerse.qdyn |
Pa |
|
towerse.tower.section_L |
m |
|
towerse.tower.f1 |
Hz |
|
towerse.tower.f2 |
Hz |
|
towerse.tower.structural_frequencies |
Hz |
|
towerse.tower.fore_aft_modes |
||
towerse.tower.side_side_modes |
||
towerse.tower.torsion_modes |
||
towerse.tower.fore_aft_freqs |
Hz |
|
towerse.tower.side_side_freqs |
Hz |
|
towerse.tower.torsion_freqs |
Hz |
|
towerse.tower.tower_deflection |
m |
|
towerse.tower.top_deflection |
m |
|
towerse.tower.tower_Fz |
N |
|
towerse.tower.tower_Vx |
N |
|
towerse.tower.tower_Vy |
N |
|
towerse.tower.tower_Mxx |
N*m |
|
towerse.tower.tower_Myy |
N*m |
|
towerse.tower.tower_Mzz |
N*m |
|
towerse.tower.turbine_F |
N |
|
towerse.tower.turbine_M |
N*m |
|
towerse.post.axial_stress |
Pa |
|
towerse.post.shear_stress |
Pa |
|
towerse.post.hoop_stress |
Pa |
|
towerse.post.hoop_stress_euro |
Pa |
|
towerse.post.constr_stress |
||
towerse.post.constr_shell_buckling |
||
towerse.post.constr_global_buckling |
||
fixedse.transition_piece_height |
m |
|
fixedse.z_start |
m |
|
fixedse.suctionpile_depth |
m |
|
fixedse.bending_height |
m |
|
fixedse.s_const1 |
||
fixedse.joint1 |
m |
|
fixedse.joint2 |
m |
|
fixedse.constr_diam_consistency |
||
fixedse.member.s |
||
fixedse.member.height |
m |
|
fixedse.monopile_section_height |
m |
|
fixedse.monopile_outer_diameter |
m |
|
fixedse.monopile_wall_thickness |
m |
|
fixedse.member.E |
Pa |
|
fixedse.member.G |
Pa |
|
fixedse.member.sigma_y |
Pa |
|
fixedse.member.sigma_ult |
Pa |
|
fixedse.member.wohler_exp |
||
fixedse.member.wohler_A |
||
fixedse.member.rho |
kg/m**3 |
|
fixedse.member.unit_cost |
USD/kg |
|
fixedse.member.outfitting_factor |
||
fixedse.member.ballast_density |
kg/m**3 |
|
fixedse.member.ballast_unit_cost |
USD/kg |
|
fixedse.z_param |
m |
|
fixedse.member.sec_loc |
normalized sectional location |
|
fixedse.member.str_tw |
deg |
structural twist of section |
fixedse.member.tw_iner |
deg |
inertial twist of section |
fixedse.member.mass_den |
kg/m |
sectional mass per unit length |
fixedse.member.foreaft_iner |
kg*m |
sectional fore-aft intertia per unit length about the Y_G inertia axis |
fixedse.member.sideside_iner |
kg*m |
sectional side-side intertia per unit length about the Y_G inertia axis |
fixedse.member.foreaft_stff |
N*m**2 |
sectional fore-aft bending stiffness per unit length about the Y_E elastic axis |
fixedse.member.sideside_stff |
N*m**2 |
sectional side-side bending stiffness per unit length about the Y_E elastic axis |
fixedse.member.tor_stff |
N*m**2 |
sectional torsional stiffness |
fixedse.member.axial_stff |
N |
sectional axial stiffness |
fixedse.member.cg_offst |
m |
offset from the sectional center of mass |
fixedse.member.sc_offst |
m |
offset from the sectional shear center |
fixedse.member.tc_offst |
m |
offset from the sectional tension center |
fixedse.member.axial_load2stress |
m**2 |
|
fixedse.member.shear_load2stress |
m**2 |
|
fixedse.constr_d_to_t |
||
fixedse.constr_taper |
||
fixedse.slope |
||
fixedse.thickness_slope |
||
fixedse.s_full |
m |
|
fixedse.z_full |
m |
|
fixedse.d_full |
m |
|
fixedse.t_full |
m |
|
fixedse.E_full |
Pa |
|
fixedse.G_full |
Pa |
|
fixedse.member.nu_full |
||
fixedse.sigma_y_full |
Pa |
|
fixedse.rho_full |
kg/m**3 |
|
fixedse.member.unit_cost_full |
USD/kg |
|
fixedse.outfitting_full |
||
fixedse.member.nodes_r |
m |
|
fixedse.nodes_xyz |
m |
|
fixedse.z_global |
m |
|
fixedse.member.center_of_buoyancy |
m |
|
fixedse.member.displacement |
m**3 |
|
fixedse.member.buoyancy_force |
N |
|
fixedse.member.idx_cb |
||
fixedse.member.Awater |
m**2 |
|
fixedse.member.Iwater |
m**4 |
|
fixedse.member.added_mass |
kg |
|
fixedse.member.waterline_centroid |
m |
|
fixedse.member.z_dim |
m |
|
fixedse.member.d_eff |
m |
|
fixedse.member.labor_hours |
h |
|
fixedse.member.shell_cost |
USD |
|
fixedse.member.shell_mass |
kg |
|
fixedse.member.shell_z_cg |
m |
|
fixedse.member.shell_I_base |
kg*m**2 |
|
fixedse.member.section_D |
m |
|
fixedse.member.section_t |
m |
|
fixedse.section_A |
m**2 |
|
fixedse.section_Asx |
m**2 |
|
fixedse.section_Asy |
m**2 |
|
fixedse.section_Ixx |
kg*m**2 |
|
fixedse.section_Iyy |
kg*m**2 |
|
fixedse.section_J0 |
kg*m**2 |
|
fixedse.section_rho |
kg/m**3 |
|
fixedse.section_E |
Pa |
|
fixedse.section_G |
Pa |
|
fixedse.member.section_sigma_y |
Pa |
|
fixedse.monopile_mass |
kg |
|
fixedse.monopile_cost |
USD |
|
fixedse.monopile_z_cg |
m |
|
fixedse.monopile_I_base |
kg*m**2 |
|
fixedse.transition_piece_I |
kg*m**2 |
|
fixedse.gravity_foundation_I |
kg*m**2 |
|
fixedse.structural_mass |
kg |
|
fixedse.structural_cost |
USD |
|
fixedse.soil.z_k |
N/m |
|
fixedse.soil.k |
N/m |
|
fixedse.env.wind.U |
m/s |
|
fixedse.env.windLoads.windLoads_Px |
N/m |
|
fixedse.env.windLoads.windLoads_Py |
N/m |
|
fixedse.env.windLoads.windLoads_Pz |
N/m |
|
fixedse.env.windLoads.windLoads_qdyn |
N/m**2 |
|
fixedse.env.windLoads.windLoads_z |
m |
|
fixedse.env.windLoads.windLoads_beta |
deg |
|
fixedse.env.wave.U |
m/s |
|
fixedse.env.wave.W |
m/s |
|
fixedse.env.wave.V |
m/s |
|
fixedse.env.wave.A |
m/s**2 |
|
fixedse.env.wave.p |
N/m**2 |
|
fixedse.env.wave.phase_speed |
m/s |
|
fixedse.env.waveLoads.waveLoads_Px |
N/m |
|
fixedse.env.waveLoads.waveLoads_Py |
N/m |
|
fixedse.env.waveLoads.waveLoads_Pz |
N/m |
|
fixedse.env.waveLoads.waveLoads_qdyn |
N/m**2 |
|
fixedse.env.waveLoads.waveLoads_pt |
N/m**2 |
|
fixedse.env.waveLoads.waveLoads_z |
m |
|
fixedse.env.waveLoads.waveLoads_beta |
deg |
|
fixedse.env.Px |
N/m |
|
fixedse.env.Py |
N/m |
|
fixedse.env.Pz |
N/m |
|
fixedse.env.qdyn |
N/m**2 |
|
fixedse.g2e.Px |
N/m |
|
fixedse.g2e.Py |
N/m |
|
fixedse.g2e.Pz |
N/m |
|
fixedse.g2e.qdyn |
Pa |
|
fixedse.Px |
N/m |
|
fixedse.Py |
N/m |
|
fixedse.Pz |
N/m |
|
fixedse.qdyn |
Pa |
|
fixedse.monopile.section_L |
m |
|
fixedse.f1 |
Hz |
|
fixedse.f2 |
Hz |
|
fixedse.structural_frequencies |
Hz |
|
fixedse.fore_aft_freqs |
Hz |
|
fixedse.side_side_freqs |
Hz |
|
fixedse.torsion_freqs |
Hz |
|
fixedse.fore_aft_modes |
||
fixedse.side_side_modes |
||
fixedse.torsion_modes |
||
fixedse.tower_fore_aft_modes |
||
fixedse.tower_side_side_modes |
||
fixedse.tower_torsion_modes |
||
fixedse.monopile.monopile_deflection |
m |
|
fixedse.monopile.top_deflection |
m |
|
fixedse.monopile.monopile_Fz |
N |
|
fixedse.monopile.monopile_Vx |
N |
|
fixedse.monopile.monopile_Vy |
N |
|
fixedse.monopile.monopile_Mxx |
N*m |
|
fixedse.monopile.monopile_Myy |
N*m |
|
fixedse.monopile.monopile_Mzz |
N*m |
|
fixedse.monopile.mudline_F |
N |
|
fixedse.monopile.mudline_M |
N*m |
|
fixedse.monopile.monopile_tower_z_full |
m |
|
fixedse.monopile.monopile_tower_d_full |
m |
|
fixedse.monopile.monopile_tower_t_full |
m |
|
fixedse.monopile.monopile_tower_rho_full |
kg/m**3 |
|
fixedse.monopile.monopile_tower_E_full |
Pa |
|
fixedse.monopile.monopile_tower_G_full |
Pa |
|
fixedse.monopile.monopile_tower_sigma_y_full |
Pa |
|
fixedse.monopile.monopile_tower_bending_height |
m |
|
fixedse.monopile.monopile_tower_qdyn |
Pa |
|
fixedse.monopile.monopile_tower_Fz |
N |
|
fixedse.monopile.monopile_tower_Vx |
N |
|
fixedse.monopile.monopile_tower_Vy |
N |
|
fixedse.monopile.monopile_tower_Mxx |
N*m |
|
fixedse.monopile.monopile_tower_Myy |
N*m |
|
fixedse.monopile.monopile_tower_Mzz |
N*m |
|
fixedse.post.axial_stress |
Pa |
|
fixedse.post.shear_stress |
Pa |
|
fixedse.post.hoop_stress |
Pa |
|
fixedse.post.hoop_stress_euro |
Pa |
|
fixedse.post.constr_stress |
||
fixedse.post.constr_shell_buckling |
||
fixedse.post.constr_global_buckling |
||
fixedse.post_monopile_tower.axial_stress |
Pa |
|
fixedse.post_monopile_tower.shear_stress |
Pa |
|
fixedse.post_monopile_tower.hoop_stress |
Pa |
|
fixedse.post_monopile_tower.hoop_stress_euro |
Pa |
|
fixedse.post_monopile_tower.constr_stress |
||
fixedse.post_monopile_tower.constr_shell_buckling |
||
fixedse.post_monopile_tower.constr_global_buckling |
||
tcons.constr_tower_f_NPmargin |
constraint on tower frequency such that ratio of 3P/f is above or below gamma with constraint <= 0 |
|
tcons.constr_tower_f_1Pmargin |
constraint on tower frequency such that ratio of 1P/f is above or below gamma with constraint <= 0 |
|
tcons.tip_deflection_ratio |
||
tcons.blade_tip_tower_clearance |
m |
|
tcc.blade_cost |
USD |
|
tcc.hub_cost |
USD |
|
tcc.pitch_system_cost |
USD |
|
tcc.spinner_cost |
USD |
|
tcc.hub_system_mass_tcc |
kg |
|
tcc.hub_system_cost |
USD |
|
tcc.rotor_cost |
USD |
|
tcc.rotor_mass_tcc |
kg |
|
tcc.lss_cost |
USD |
|
tcc.main_bearing_cost |
USD |
|
tcc.gearbox_cost |
USD |
|
tcc.hss_cost |
USD |
|
tcc.brake_cost |
USD |
|
tcc.generator_cost |
USD |
|
tcc.bedplate_cost |
USD |
|
tcc.yaw_system_cost |
USD |
|
tcc.hvac_cost |
USD |
|
tcc.controls_cost |
USD |
|
tcc.converter_cost |
USD |
|
tcc.elec_cost |
USD |
|
tcc.cover_cost |
USD |
|
tcc.platforms_cost |
USD |
|
tcc.transformer_cost |
USD |
|
tcc.nacelle_cost |
USD |
|
tcc.nacelle_mass_tcc |
kg |
|
tcc.tower_parts_cost |
USD |
|
tcc.tower_cost |
USD |
|
tcc.turbine_mass_tcc |
kg |
|
tcc.turbine_cost |
USD |
|
tcc.turbine_cost_kW |
USD/kW |
|
orbit.bos_capex |
USD |
Total BOS CAPEX not including commissioning or decommissioning. |
orbit.total_capex |
USD |
Total BOS CAPEX including commissioning and decommissioning. |
orbit.total_capex_kW |
USD/kW |
Total BOS CAPEX including commissioning and decommissioning. |
orbit.installation_time |
h |
Total balance of system installation time. |
orbit.installation_capex |
USD |
Total balance of system installation cost. |
financese.plant_aep |
USD/kW/h |
|
financese.capacity_factor |
Capacity factor of the wind farm |
|
financese.lcoe |
USD/kW/h |
Levelized cost of energy: LCOE is the cost that, if assigned to every unit of electricity by an asset over an evaluation period, will equal the total costs during that same period when discounted to the base year. |
financese.lvoe |
USD/kW/h |
Levelized value of energy: LVOE is the discounted sum of total value divided by the discounted sum of electrical energy generated. |
financese.value_factor |
Value factor is the LVOE divided by a benchmark price. |
|
financese.nvoc |
USD/kW/year |
Net value of capacity: NVOC is the difference in an asset’s total annualized value and annualized cost, divided by the installed capacity of the asset. NVOC ≥ 0 for economic viability. |
financese.nvoe |
USD/kW/h |
Net value of energy: NVOE is the difference between LVOE and LCOE. NVOE ≥ 0 for economic viability. |
financese.slcoe |
USD/kW/h |
System LCOE: SLCOE is the negative of NVOE but further adjusted by a benchmark price. System LCOE ≤ benchmark price for economic viability. |
financese.bcr |
Benefit cost ratio: BCR is the discounted sum of total value divided by the discounted sum of total cost. A higher BCR is more competitive. BCR ≥ 1 for economic viability |
|
financese.cbr |
Cost benefit ratio: CBR is the inverse of BCR. CBR ≤ 1 for economic viability. A lower CBR is more competitive. |
|
financese.roi |
Return on investment: ROI can also be expressed as BCR – 1. A higher ROI is more competitive. ROI ≥ 0 for economic viability. |
|
financese.pm |
Profit margin: PM can also be expressed as 1 - CBR. A higher PM is more competitive. PM ≥ 0 for economic viability. |
|
financese.plcoe |
USD/kW/h |
Profitability adjusted PLCOE is the product of a benchmark price and CBR, which is equal to LCOE divided by value factor. A lower PLCOE is more competitive. PLCOE ≤ benchmark price for economic viability. |
nacelle.hss_length |
m |
Length of high speed shaft |
nacelle.hss_diameter |
m |
Diameter of high speed shaft |
nacelle.hss_wall_thickness |
m |
Wall thickness of high speed shaft |
nacelle.bedplate_flange_width |
m |
Bedplate I-beam flange width |
nacelle.bedplate_flange_thickness |
m |
Bedplate I-beam flange thickness |
nacelle.bedplate_web_thickness |
m |
Bedplate I-beam web thickness |
nacelle.gear_configuration |
Unavailable |
3-letter string of Es or Ps to denote epicyclic or parallel gear configuration |
nacelle.planet_numbers |
Unavailable |
Number of planets for epicyclic stages (use 0 for parallel) |
generator.B_symax |
T |
|
generator.S_Nmax |
||
bos.interconnect_voltage |
kV |
|
drivese.s_drive |
m |
|
drivese.s_hss |
m |
|
drivese.bedplate_web_height |
m |
|
drivese.generator.N_r |
||
drivese.generator.L_r |
||
drivese.generator.h_yr |
||
drivese.generator.h_ys |
||
drivese.generator.Current_ratio |
||
drivese.generator.E_p |
||
drivese.hss_spring_constant |
N*m/rad |
|
drivese.hss_axial_stress |
Pa |
|
drivese.hss_shear_stress |
Pa |
|
drivese.hss_bending_stress |
Pa |
|
drivese.constr_hss_vonmises |
||
drivese.F_generator |
N |
|
drivese.M_generator |
N*m |
|
drivese.bedplate_axial_stress |
Pa |
|
drivese.bedplate_shear_stress |
Pa |
|
drivese.bedplate_bending_stress |
Pa |
|
landbosse.bos_capex |
USD |
Total BOS CAPEX not including commissioning or decommissioning. |
landbosse.bos_capex_kW |
USD/kW |
Total BOS CAPEX per kW not including commissioning or decommissioning. |
landbosse.total_capex |
USD |
Total BOS CAPEX including commissioning and decommissioning. |
landbosse.total_capex_kW |
USD/kW |
Total BOS CAPEX per kW including commissioning and decommissioning. |
landbosse.installation_capex |
USD |
Total foundation and erection installation cost. |
landbosse.installation_capex_kW |
USD |
Total foundation and erection installation cost per kW. |
landbosse.installation_time_months |
Total balance of system installation time (months). |
|
landbosse.landbosse_costs_by_module_type_operation |
Unavailable |
The costs by module, type and operation |
landbosse.landbosse_details_by_module |
Unavailable |
The details from the run of LandBOSSE. This includes some costs, but mostly other things |
landbosse.erection_crane_choice |
Unavailable |
The crane choices for erection. |
landbosse.erection_component_name_topvbase |
Unavailable |
List of components and whether they are a topping or base operation |
landbosse.erection_components |
Unavailable |
List of components with their values modified from the defaults. |
floating.location_in |
m |
|
floating.transition_node |
m |
|
floating.transition_piece_mass |
kg |
point mass of transition piece |
floating.transition_piece_cost |
USD |
cost of transition piece |
floating.location |
m |
|
floating.memgrp0.s_in |
||
floating.memgrp0.s |
||
floating.memgrp0.outer_diameter_in |
m |
|
floating.memgrp0.layer_thickness_in |
m |
|
floating.memgrp0.bulkhead_grid |
||
floating.memgrp0.bulkhead_thickness |
m |
|
floating.memgrp0.ballast_grid |
||
floating.memgrp0.ballast_volume |
m**3 |
|
floating.memgrp0.grid_axial_joints |
||
floating.memgrp0.outfitting_factor |
||
floating.memgrp0.ring_stiffener_web_height |
m |
|
floating.memgrp0.ring_stiffener_web_thickness |
m |
|
floating.memgrp0.ring_stiffener_flange_width |
m |
|
floating.memgrp0.ring_stiffener_flange_thickness |
m |
|
floating.memgrp0.ring_stiffener_spacing |
||
floating.memgrp0.axial_stiffener_web_height |
m |
|
floating.memgrp0.axial_stiffener_web_thickness |
m |
|
floating.memgrp0.axial_stiffener_flange_width |
m |
|
floating.memgrp0.axial_stiffener_flange_thickness |
m |
|
floating.memgrp0.axial_stiffener_spacing |
rad |
|
floating.memgrp0.layer_materials |
Unavailable |
|
floating.memgrp0.ballast_materials |
Unavailable |
|
floating.memgrid0.outer_diameter |
m |
|
floating.memgrid0.layer_thickness |
m |
|
floating.memgrp1.s_in |
||
floating.memgrp1.s |
||
floating.memgrp1.outer_diameter_in |
m |
|
floating.memgrp1.layer_thickness_in |
m |
|
floating.memgrp1.bulkhead_grid |
||
floating.memgrp1.bulkhead_thickness |
m |
|
floating.memgrp1.ballast_grid |
||
floating.memgrp1.ballast_volume |
m**3 |
|
floating.memgrp1.grid_axial_joints |
||
floating.memgrp1.outfitting_factor |
||
floating.memgrp1.ring_stiffener_web_height |
m |
|
floating.memgrp1.ring_stiffener_web_thickness |
m |
|
floating.memgrp1.ring_stiffener_flange_width |
m |
|
floating.memgrp1.ring_stiffener_flange_thickness |
m |
|
floating.memgrp1.ring_stiffener_spacing |
||
floating.memgrp1.axial_stiffener_web_height |
m |
|
floating.memgrp1.axial_stiffener_web_thickness |
m |
|
floating.memgrp1.axial_stiffener_flange_width |
m |
|
floating.memgrp1.axial_stiffener_flange_thickness |
m |
|
floating.memgrp1.axial_stiffener_spacing |
rad |
|
floating.memgrp1.layer_materials |
Unavailable |
|
floating.memgrp1.ballast_materials |
Unavailable |
|
floating.memgrid1.outer_diameter |
m |
|
floating.memgrid1.layer_thickness |
m |
|
floating.memgrp2.s_in |
||
floating.memgrp2.s |
||
floating.memgrp2.outer_diameter_in |
m |
|
floating.memgrp2.layer_thickness_in |
m |
|
floating.memgrp2.bulkhead_grid |
||
floating.memgrp2.bulkhead_thickness |
m |
|
floating.memgrp2.ballast_grid |
||
floating.memgrp2.ballast_volume |
m**3 |
|
floating.memgrp2.grid_axial_joints |
||
floating.memgrp2.outfitting_factor |
||
floating.memgrp2.ring_stiffener_web_height |
m |
|
floating.memgrp2.ring_stiffener_web_thickness |
m |
|
floating.memgrp2.ring_stiffener_flange_width |
m |
|
floating.memgrp2.ring_stiffener_flange_thickness |
m |
|
floating.memgrp2.ring_stiffener_spacing |
||
floating.memgrp2.axial_stiffener_web_height |
m |
|
floating.memgrp2.axial_stiffener_web_thickness |
m |
|
floating.memgrp2.axial_stiffener_flange_width |
m |
|
floating.memgrp2.axial_stiffener_flange_thickness |
m |
|
floating.memgrp2.axial_stiffener_spacing |
rad |
|
floating.memgrp2.layer_materials |
Unavailable |
|
floating.memgrp2.ballast_materials |
Unavailable |
|
floating.memgrid2.outer_diameter |
m |
|
floating.memgrid2.layer_thickness |
m |
|
floating.memgrp3.s_in |
||
floating.memgrp3.s |
||
floating.memgrp3.outer_diameter_in |
m |
|
floating.memgrp3.layer_thickness_in |
m |
|
floating.memgrp3.bulkhead_grid |
||
floating.memgrp3.bulkhead_thickness |
m |
|
floating.memgrp3.ballast_grid |
||
floating.memgrp3.ballast_volume |
m**3 |
|
floating.memgrp3.grid_axial_joints |
||
floating.memgrp3.outfitting_factor |
||
floating.memgrp3.ring_stiffener_web_height |
m |
|
floating.memgrp3.ring_stiffener_web_thickness |
m |
|
floating.memgrp3.ring_stiffener_flange_width |
m |
|
floating.memgrp3.ring_stiffener_flange_thickness |
m |
|
floating.memgrp3.ring_stiffener_spacing |
||
floating.memgrp3.axial_stiffener_web_height |
m |
|
floating.memgrp3.axial_stiffener_web_thickness |
m |
|
floating.memgrp3.axial_stiffener_flange_width |
m |
|
floating.memgrp3.axial_stiffener_flange_thickness |
m |
|
floating.memgrp3.axial_stiffener_spacing |
rad |
|
floating.memgrp3.layer_materials |
Unavailable |
|
floating.memgrp3.ballast_materials |
Unavailable |
|
floating.memgrid3.outer_diameter |
m |
|
floating.memgrid3.layer_thickness |
m |
|
floating.memgrp4.s_in |
||
floating.memgrp4.s |
||
floating.memgrp4.outer_diameter_in |
m |
|
floating.memgrp4.layer_thickness_in |
m |
|
floating.memgrp4.bulkhead_grid |
||
floating.memgrp4.bulkhead_thickness |
m |
|
floating.memgrp4.ballast_grid |
||
floating.memgrp4.ballast_volume |
m**3 |
|
floating.memgrp4.grid_axial_joints |
||
floating.memgrp4.outfitting_factor |
||
floating.memgrp4.ring_stiffener_web_height |
m |
|
floating.memgrp4.ring_stiffener_web_thickness |
m |
|
floating.memgrp4.ring_stiffener_flange_width |
m |
|
floating.memgrp4.ring_stiffener_flange_thickness |
m |
|
floating.memgrp4.ring_stiffener_spacing |
||
floating.memgrp4.axial_stiffener_web_height |
m |
|
floating.memgrp4.axial_stiffener_web_thickness |
m |
|
floating.memgrp4.axial_stiffener_flange_width |
m |
|
floating.memgrp4.axial_stiffener_flange_thickness |
m |
|
floating.memgrp4.axial_stiffener_spacing |
rad |
|
floating.memgrp4.layer_materials |
Unavailable |
|
floating.memgrp4.ballast_materials |
Unavailable |
|
floating.memgrid4.outer_diameter |
m |
|
floating.memgrid4.layer_thickness |
m |
|
floating.memgrp5.s_in |
||
floating.memgrp5.s |
||
floating.memgrp5.outer_diameter_in |
m |
|
floating.memgrp5.layer_thickness_in |
m |
|
floating.memgrp5.bulkhead_grid |
||
floating.memgrp5.bulkhead_thickness |
m |
|
floating.memgrp5.ballast_grid |
||
floating.memgrp5.ballast_volume |
m**3 |
|
floating.memgrp5.grid_axial_joints |
||
floating.memgrp5.outfitting_factor |
||
floating.memgrp5.ring_stiffener_web_height |
m |
|
floating.memgrp5.ring_stiffener_web_thickness |
m |
|
floating.memgrp5.ring_stiffener_flange_width |
m |
|
floating.memgrp5.ring_stiffener_flange_thickness |
m |
|
floating.memgrp5.ring_stiffener_spacing |
||
floating.memgrp5.axial_stiffener_web_height |
m |
|
floating.memgrp5.axial_stiffener_web_thickness |
m |
|
floating.memgrp5.axial_stiffener_flange_width |
m |
|
floating.memgrp5.axial_stiffener_flange_thickness |
m |
|
floating.memgrp5.axial_stiffener_spacing |
rad |
|
floating.memgrp5.layer_materials |
Unavailable |
|
floating.memgrp5.ballast_materials |
Unavailable |
|
floating.memgrid5.outer_diameter |
m |
|
floating.memgrid5.layer_thickness |
m |
|
floating.memgrp6.s_in |
||
floating.memgrp6.s |
||
floating.memgrp6.outer_diameter_in |
m |
|
floating.memgrp6.layer_thickness_in |
m |
|
floating.memgrp6.bulkhead_grid |
||
floating.memgrp6.bulkhead_thickness |
m |
|
floating.memgrp6.ballast_grid |
||
floating.memgrp6.ballast_volume |
m**3 |
|
floating.memgrp6.grid_axial_joints |
||
floating.memgrp6.outfitting_factor |
||
floating.memgrp6.ring_stiffener_web_height |
m |
|
floating.memgrp6.ring_stiffener_web_thickness |
m |
|
floating.memgrp6.ring_stiffener_flange_width |
m |
|
floating.memgrp6.ring_stiffener_flange_thickness |
m |
|
floating.memgrp6.ring_stiffener_spacing |
||
floating.memgrp6.axial_stiffener_web_height |
m |
|
floating.memgrp6.axial_stiffener_web_thickness |
m |
|
floating.memgrp6.axial_stiffener_flange_width |
m |
|
floating.memgrp6.axial_stiffener_flange_thickness |
m |
|
floating.memgrp6.axial_stiffener_spacing |
rad |
|
floating.memgrp6.layer_materials |
Unavailable |
|
floating.memgrp6.ballast_materials |
Unavailable |
|
floating.memgrid6.outer_diameter |
m |
|
floating.memgrid6.layer_thickness |
m |
|
floating.memgrp7.s_in |
||
floating.memgrp7.s |
||
floating.memgrp7.outer_diameter_in |
m |
|
floating.memgrp7.layer_thickness_in |
m |
|
floating.memgrp7.bulkhead_grid |
||
floating.memgrp7.bulkhead_thickness |
m |
|
floating.memgrp7.ballast_grid |
||
floating.memgrp7.ballast_volume |
m**3 |
|
floating.memgrp7.grid_axial_joints |
||
floating.memgrp7.outfitting_factor |
||
floating.memgrp7.ring_stiffener_web_height |
m |
|
floating.memgrp7.ring_stiffener_web_thickness |
m |
|
floating.memgrp7.ring_stiffener_flange_width |
m |
|
floating.memgrp7.ring_stiffener_flange_thickness |
m |
|
floating.memgrp7.ring_stiffener_spacing |
||
floating.memgrp7.axial_stiffener_web_height |
m |
|
floating.memgrp7.axial_stiffener_web_thickness |
m |
|
floating.memgrp7.axial_stiffener_flange_width |
m |
|
floating.memgrp7.axial_stiffener_flange_thickness |
m |
|
floating.memgrp7.axial_stiffener_spacing |
rad |
|
floating.memgrp7.layer_materials |
Unavailable |
|
floating.memgrp7.ballast_materials |
Unavailable |
|
floating.memgrid7.outer_diameter |
m |
|
floating.memgrid7.layer_thickness |
m |
|
floating.memgrp8.s_in |
||
floating.memgrp8.s |
||
floating.memgrp8.outer_diameter_in |
m |
|
floating.memgrp8.layer_thickness_in |
m |
|
floating.memgrp8.bulkhead_grid |
||
floating.memgrp8.bulkhead_thickness |
m |
|
floating.memgrp8.ballast_grid |
||
floating.memgrp8.ballast_volume |
m**3 |
|
floating.memgrp8.grid_axial_joints |
||
floating.memgrp8.outfitting_factor |
||
floating.memgrp8.ring_stiffener_web_height |
m |
|
floating.memgrp8.ring_stiffener_web_thickness |
m |
|
floating.memgrp8.ring_stiffener_flange_width |
m |
|
floating.memgrp8.ring_stiffener_flange_thickness |
m |
|
floating.memgrp8.ring_stiffener_spacing |
||
floating.memgrp8.axial_stiffener_web_height |
m |
|
floating.memgrp8.axial_stiffener_web_thickness |
m |
|
floating.memgrp8.axial_stiffener_flange_width |
m |
|
floating.memgrp8.axial_stiffener_flange_thickness |
m |
|
floating.memgrp8.axial_stiffener_spacing |
rad |
|
floating.memgrp8.layer_materials |
Unavailable |
|
floating.memgrp8.ballast_materials |
Unavailable |
|
floating.memgrid8.outer_diameter |
m |
|
floating.memgrid8.layer_thickness |
m |
|
floating.memgrp9.s_in |
||
floating.memgrp9.s |
||
floating.memgrp9.outer_diameter_in |
m |
|
floating.memgrp9.layer_thickness_in |
m |
|
floating.memgrp9.bulkhead_grid |
||
floating.memgrp9.bulkhead_thickness |
m |
|
floating.memgrp9.ballast_grid |
||
floating.memgrp9.ballast_volume |
m**3 |
|
floating.memgrp9.grid_axial_joints |
||
floating.memgrp9.outfitting_factor |
||
floating.memgrp9.ring_stiffener_web_height |
m |
|
floating.memgrp9.ring_stiffener_web_thickness |
m |
|
floating.memgrp9.ring_stiffener_flange_width |
m |
|
floating.memgrp9.ring_stiffener_flange_thickness |
m |
|
floating.memgrp9.ring_stiffener_spacing |
||
floating.memgrp9.axial_stiffener_web_height |
m |
|
floating.memgrp9.axial_stiffener_web_thickness |
m |
|
floating.memgrp9.axial_stiffener_flange_width |
m |
|
floating.memgrp9.axial_stiffener_flange_thickness |
m |
|
floating.memgrp9.axial_stiffener_spacing |
rad |
|
floating.memgrp9.layer_materials |
Unavailable |
|
floating.memgrp9.ballast_materials |
Unavailable |
|
floating.memgrid9.outer_diameter |
m |
|
floating.memgrid9.layer_thickness |
m |
|
floating.member_main_column:joint1 |
m |
|
floating.member_main_column:joint2 |
m |
|
floating.member_main_column:height |
m |
|
floating.member_main_column:s_ghost1 |
||
floating.member_main_column:s_ghost2 |
||
floating.member_column1:joint1 |
m |
|
floating.member_column1:joint2 |
m |
|
floating.member_column1:height |
m |
|
floating.member_column1:s_ghost1 |
||
floating.member_column1:s_ghost2 |
||
floating.member_column2:joint1 |
m |
|
floating.member_column2:joint2 |
m |
|
floating.member_column2:height |
m |
|
floating.member_column2:s_ghost1 |
||
floating.member_column2:s_ghost2 |
||
floating.member_column3:joint1 |
m |
|
floating.member_column3:joint2 |
m |
|
floating.member_column3:height |
m |
|
floating.member_column3:s_ghost1 |
||
floating.member_column3:s_ghost2 |
||
floating.member_Y_pontoon_upper1:joint1 |
m |
|
floating.member_Y_pontoon_upper1:joint2 |
m |
|
floating.member_Y_pontoon_upper1:height |
m |
|
floating.member_Y_pontoon_upper1:s_ghost1 |
||
floating.member_Y_pontoon_upper1:s_ghost2 |
||
floating.member_Y_pontoon_upper2:joint1 |
m |
|
floating.member_Y_pontoon_upper2:joint2 |
m |
|
floating.member_Y_pontoon_upper2:height |
m |
|
floating.member_Y_pontoon_upper2:s_ghost1 |
||
floating.member_Y_pontoon_upper2:s_ghost2 |
||
floating.member_Y_pontoon_upper3:joint1 |
m |
|
floating.member_Y_pontoon_upper3:joint2 |
m |
|
floating.member_Y_pontoon_upper3:height |
m |
|
floating.member_Y_pontoon_upper3:s_ghost1 |
||
floating.member_Y_pontoon_upper3:s_ghost2 |
||
floating.member_Y_pontoon_lower1:joint1 |
m |
|
floating.member_Y_pontoon_lower1:joint2 |
m |
|
floating.member_Y_pontoon_lower1:height |
m |
|
floating.member_Y_pontoon_lower1:s_ghost1 |
||
floating.member_Y_pontoon_lower1:s_ghost2 |
||
floating.member_Y_pontoon_lower2:joint1 |
m |
|
floating.member_Y_pontoon_lower2:joint2 |
m |
|
floating.member_Y_pontoon_lower2:height |
m |
|
floating.member_Y_pontoon_lower2:s_ghost1 |
||
floating.member_Y_pontoon_lower2:s_ghost2 |
||
floating.member_Y_pontoon_lower3:joint1 |
m |
|
floating.member_Y_pontoon_lower3:joint2 |
m |
|
floating.member_Y_pontoon_lower3:height |
m |
|
floating.member_Y_pontoon_lower3:s_ghost1 |
||
floating.member_Y_pontoon_lower3:s_ghost2 |
||
floating.joints_xyz |
m |
|
mooring.nodes_location |
m |
|
mooring.nodes_mass |
kg |
|
mooring.nodes_volume |
m**3 |
|
mooring.nodes_added_mass |
||
mooring.nodes_drag_area |
m**2 |
|
mooring.unstretched_length_in |
m |
|
mooring.line_diameter_in |
m |
|
mooring.line_mass_density_coeff |
kg/m**3 |
|
mooring.line_stiffness_coeff |
N/m**2 |
|
mooring.line_breaking_load_coeff |
N/m**2 |
|
mooring.line_cost_rate_coeff |
USD/m**3 |
|
mooring.line_transverse_added_mass_coeff |
kg/m**3 |
|
mooring.line_tangential_added_mass_coeff |
kg/m**3 |
|
mooring.line_transverse_drag_coeff |
N/m**2 |
|
mooring.line_tangential_drag_coeff |
N/m**2 |
|
mooring.anchor_mass |
kg |
|
mooring.anchor_cost |
USD |
|
mooring.anchor_max_vertical_load |
N |
|
mooring.anchor_max_lateral_load |
N |
|
mooring.node_names |
Unavailable |
|
mooring.n_lines |
Unavailable |
|
mooring.nodes_joint_name |
Unavailable |
|
mooring.line_id |
Unavailable |
|
mooring.unstretched_length |
m |
|
mooring.line_diameter |
m |
|
mooring.line_mass_density |
kg/m |
|
mooring.line_stiffness |
N |
|
mooring.line_breaking_load |
N |
|
mooring.line_cost_rate |
USD/m |
|
mooring.line_transverse_added_mass |
kg/m |
|
mooring.line_tangential_added_mass |
kg/m |
|
mooring.line_transverse_drag |
||
mooring.line_tangential_drag |
||
mooring.mooring_nodes |
m |
|
mooring.fairlead_nodes |
m |
|
mooring.fairlead |
m |
|
mooring.fairlead_radius |
m |
|
mooring.anchor_nodes |
m |
|
mooring.anchor_radius |
m |
|
floatingse.member0.s |
||
floatingse.member0.height |
m |
|
floatingse.member0.section_height |
m |
|
floatingse.member0.outer_diameter |
m |
|
floatingse.member0.wall_thickness |
m |
|
floatingse.member0.E |
Pa |
|
floatingse.member0.G |
Pa |
|
floatingse.member0.sigma_y |
Pa |
|
floatingse.member0.sigma_ult |
Pa |
|
floatingse.member0.wohler_exp |
||
floatingse.member0.wohler_A |
||
floatingse.member0.rho |
kg/m**3 |
|
floatingse.member0.unit_cost |
USD/kg |
|
floatingse.member0.outfitting_factor |
||
floatingse.member0.ballast_density |
kg/m**3 |
|
floatingse.member0.ballast_unit_cost |
USD/kg |
|
floatingse.member0.z_param |
m |
|
floatingse.member0.sec_loc |
normalized sectional location |
|
floatingse.member0.str_tw |
deg |
structural twist of section |
floatingse.member0.tw_iner |
deg |
inertial twist of section |
floatingse.member0.mass_den |
kg/m |
sectional mass per unit length |
floatingse.member0.foreaft_iner |
kg*m |
sectional fore-aft intertia per unit length about the Y_G inertia axis |
floatingse.member0.sideside_iner |
kg*m |
sectional side-side intertia per unit length about the Y_G inertia axis |
floatingse.member0.foreaft_stff |
N*m**2 |
sectional fore-aft bending stiffness per unit length about the Y_E elastic axis |
floatingse.member0.sideside_stff |
N*m**2 |
sectional side-side bending stiffness per unit length about the Y_E elastic axis |
floatingse.member0.tor_stff |
N*m**2 |
sectional torsional stiffness |
floatingse.member0.axial_stff |
N |
sectional axial stiffness |
floatingse.member0.cg_offst |
m |
offset from the sectional center of mass |
floatingse.member0.sc_offst |
m |
offset from the sectional shear center |
floatingse.member0.tc_offst |
m |
offset from the sectional tension center |
floatingse.member0.axial_load2stress |
m**2 |
|
floatingse.member0.shear_load2stress |
m**2 |
|
floatingse.member0.constr_d_to_t |
||
floatingse.member0.constr_taper |
||
floatingse.member0.slope |
||
floatingse.member0.thickness_slope |
||
floatingse.member0.s_full |
m |
|
floatingse.member0.z_full |
m |
|
floatingse.member0.d_full |
m |
|
floatingse.member0.t_full |
m |
|
floatingse.member0.E_full |
Pa |
|
floatingse.member0.G_full |
Pa |
|
floatingse.member0.nu_full |
||
floatingse.member0.sigma_y_full |
Pa |
|
floatingse.member0.rho_full |
kg/m**3 |
|
floatingse.member0.unit_cost_full |
USD/kg |
|
floatingse.member0.outfitting_full |
||
floatingse.member0.nodes_r |
m |
|
floatingse.member0.nodes_xyz |
m |
|
floatingse.member0.z_global |
m |
|
floatingse.member0.center_of_buoyancy |
m |
|
floatingse.member0.displacement |
m**3 |
|
floatingse.member0.buoyancy_force |
N |
|
floatingse.member0.idx_cb |
||
floatingse.member0.Awater |
m**2 |
|
floatingse.member0.Iwater |
m**4 |
|
floatingse.member0.added_mass |
kg |
|
floatingse.member0.waterline_centroid |
m |
|
floatingse.member0.z_dim |
m |
|
floatingse.member0.d_eff |
m |
|
floatingse.member0.shell_cost |
USD |
|
floatingse.member0.shell_mass |
kg |
|
floatingse.member0.shell_z_cg |
m |
|
floatingse.member0.shell_I_base |
kg*m**2 |
|
floatingse.member0.bulkhead_mass |
kg |
|
floatingse.member0.bulkhead_z_cg |
m |
|
floatingse.member0.bulkhead_cost |
USD |
|
floatingse.member0.bulkhead_I_base |
kg*m**2 |
|
floatingse.member0.stiffener_mass |
kg |
|
floatingse.member0.stiffener_z_cg |
m |
|
floatingse.member0.stiffener_cost |
USD |
|
floatingse.member0.stiffener_I_base |
kg*m**2 |
|
floatingse.member0.flange_spacing_ratio |
||
floatingse.member0.stiffener_radius_ratio |
||
floatingse.member0.constr_flange_compactness |
||
floatingse.member0.constr_web_compactness |
||
floatingse.member0.ballast_cost |
USD |
|
floatingse.member0.ballast_mass |
kg |
|
floatingse.member0.ballast_height |
||
floatingse.member0.ballast_z_cg |
m |
|
floatingse.member0.ballast_I_base |
kg*m**2 |
|
floatingse.member0.variable_ballast_capacity |
m**3 |
|
floatingse.member0.variable_ballast_Vpts |
m**3 |
|
floatingse.member0.variable_ballast_spts |
||
floatingse.member0.constr_ballast_capacity |
||
floatingse.member0.total_mass |
kg |
|
floatingse.member0.total_cost |
USD |
|
floatingse.member0.structural_mass |
kg |
|
floatingse.member0.structural_cost |
USD |
|
floatingse.member0.z_cg |
m |
|
floatingse.member0.I_total |
kg*m**2 |
|
floatingse.member0.s_all |
||
floatingse.member0.center_of_mass |
m |
|
floatingse.member0.nodes_r_all |
m |
|
floatingse.member0.nodes_xyz_all |
m |
|
floatingse.member0.section_D |
m |
|
floatingse.member0.section_t |
m |
|
floatingse.member0.section_A |
m**2 |
|
floatingse.member0.section_Asx |
m**2 |
|
floatingse.member0.section_Asy |
m**2 |
|
floatingse.member0.section_Ixx |
kg*m**2 |
|
floatingse.member0.section_Iyy |
kg*m**2 |
|
floatingse.member0.section_J0 |
kg*m**2 |
|
floatingse.member0.section_rho |
kg/m**3 |
|
floatingse.member0.section_E |
Pa |
|
floatingse.member0.section_G |
Pa |
|
floatingse.member0.section_sigma_y |
Pa |
|
floatingse.member1.s |
||
floatingse.member1.height |
m |
|
floatingse.member1.section_height |
m |
|
floatingse.member1.outer_diameter |
m |
|
floatingse.member1.wall_thickness |
m |
|
floatingse.member1.E |
Pa |
|
floatingse.member1.G |
Pa |
|
floatingse.member1.sigma_y |
Pa |
|
floatingse.member1.sigma_ult |
Pa |
|
floatingse.member1.wohler_exp |
||
floatingse.member1.wohler_A |
||
floatingse.member1.rho |
kg/m**3 |
|
floatingse.member1.unit_cost |
USD/kg |
|
floatingse.member1.outfitting_factor |
||
floatingse.member1.ballast_density |
kg/m**3 |
|
floatingse.member1.ballast_unit_cost |
USD/kg |
|
floatingse.member1.z_param |
m |
|
floatingse.member1.sec_loc |
normalized sectional location |
|
floatingse.member1.str_tw |
deg |
structural twist of section |
floatingse.member1.tw_iner |
deg |
inertial twist of section |
floatingse.member1.mass_den |
kg/m |
sectional mass per unit length |
floatingse.member1.foreaft_iner |
kg*m |
sectional fore-aft intertia per unit length about the Y_G inertia axis |
floatingse.member1.sideside_iner |
kg*m |
sectional side-side intertia per unit length about the Y_G inertia axis |
floatingse.member1.foreaft_stff |
N*m**2 |
sectional fore-aft bending stiffness per unit length about the Y_E elastic axis |
floatingse.member1.sideside_stff |
N*m**2 |
sectional side-side bending stiffness per unit length about the Y_E elastic axis |
floatingse.member1.tor_stff |
N*m**2 |
sectional torsional stiffness |
floatingse.member1.axial_stff |
N |
sectional axial stiffness |
floatingse.member1.cg_offst |
m |
offset from the sectional center of mass |
floatingse.member1.sc_offst |
m |
offset from the sectional shear center |
floatingse.member1.tc_offst |
m |
offset from the sectional tension center |
floatingse.member1.axial_load2stress |
m**2 |
|
floatingse.member1.shear_load2stress |
m**2 |
|
floatingse.member1.constr_d_to_t |
||
floatingse.member1.constr_taper |
||
floatingse.member1.slope |
||
floatingse.member1.thickness_slope |
||
floatingse.member1.s_full |
m |
|
floatingse.member1.z_full |
m |
|
floatingse.member1.d_full |
m |
|
floatingse.member1.t_full |
m |
|
floatingse.member1.E_full |
Pa |
|
floatingse.member1.G_full |
Pa |
|
floatingse.member1.nu_full |
||
floatingse.member1.sigma_y_full |
Pa |
|
floatingse.member1.rho_full |
kg/m**3 |
|
floatingse.member1.unit_cost_full |
USD/kg |
|
floatingse.member1.outfitting_full |
||
floatingse.member1.nodes_r |
m |
|
floatingse.member1.nodes_xyz |
m |
|
floatingse.member1.z_global |
m |
|
floatingse.member1.center_of_buoyancy |
m |
|
floatingse.member1.displacement |
m**3 |
|
floatingse.member1.buoyancy_force |
N |
|
floatingse.member1.idx_cb |
||
floatingse.member1.Awater |
m**2 |
|
floatingse.member1.Iwater |
m**4 |
|
floatingse.member1.added_mass |
kg |
|
floatingse.member1.waterline_centroid |
m |
|
floatingse.member1.z_dim |
m |
|
floatingse.member1.d_eff |
m |
|
floatingse.member1.shell_cost |
USD |
|
floatingse.member1.shell_mass |
kg |
|
floatingse.member1.shell_z_cg |
m |
|
floatingse.member1.shell_I_base |
kg*m**2 |
|
floatingse.member1.bulkhead_mass |
kg |
|
floatingse.member1.bulkhead_z_cg |
m |
|
floatingse.member1.bulkhead_cost |
USD |
|
floatingse.member1.bulkhead_I_base |
kg*m**2 |
|
floatingse.member1.stiffener_mass |
kg |
|
floatingse.member1.stiffener_z_cg |
m |
|
floatingse.member1.stiffener_cost |
USD |
|
floatingse.member1.stiffener_I_base |
kg*m**2 |
|
floatingse.member1.flange_spacing_ratio |
||
floatingse.member1.stiffener_radius_ratio |
||
floatingse.member1.constr_flange_compactness |
||
floatingse.member1.constr_web_compactness |
||
floatingse.member1.ballast_cost |
USD |
|
floatingse.member1.ballast_mass |
kg |
|
floatingse.member1.ballast_height |
||
floatingse.member1.ballast_z_cg |
m |
|
floatingse.member1.ballast_I_base |
kg*m**2 |
|
floatingse.member1.variable_ballast_capacity |
m**3 |
|
floatingse.member1.variable_ballast_Vpts |
m**3 |
|
floatingse.member1.variable_ballast_spts |
||
floatingse.member1.constr_ballast_capacity |
||
floatingse.member1.total_mass |
kg |
|
floatingse.member1.total_cost |
USD |
|
floatingse.member1.structural_mass |
kg |
|
floatingse.member1.structural_cost |
USD |
|
floatingse.member1.z_cg |
m |
|
floatingse.member1.I_total |
kg*m**2 |
|
floatingse.member1.s_all |
||
floatingse.member1.center_of_mass |
m |
|
floatingse.member1.nodes_r_all |
m |
|
floatingse.member1.nodes_xyz_all |
m |
|
floatingse.member1.section_D |
m |
|
floatingse.member1.section_t |
m |
|
floatingse.member1.section_A |
m**2 |
|
floatingse.member1.section_Asx |
m**2 |
|
floatingse.member1.section_Asy |
m**2 |
|
floatingse.member1.section_Ixx |
kg*m**2 |
|
floatingse.member1.section_Iyy |
kg*m**2 |
|
floatingse.member1.section_J0 |
kg*m**2 |
|
floatingse.member1.section_rho |
kg/m**3 |
|
floatingse.member1.section_E |
Pa |
|
floatingse.member1.section_G |
Pa |
|
floatingse.member1.section_sigma_y |
Pa |
|
floatingse.member2.s |
||
floatingse.member2.height |
m |
|
floatingse.member2.section_height |
m |
|
floatingse.member2.outer_diameter |
m |
|
floatingse.member2.wall_thickness |
m |
|
floatingse.member2.E |
Pa |
|
floatingse.member2.G |
Pa |
|
floatingse.member2.sigma_y |
Pa |
|
floatingse.member2.sigma_ult |
Pa |
|
floatingse.member2.wohler_exp |
||
floatingse.member2.wohler_A |
||
floatingse.member2.rho |
kg/m**3 |
|
floatingse.member2.unit_cost |
USD/kg |
|
floatingse.member2.outfitting_factor |
||
floatingse.member2.ballast_density |
kg/m**3 |
|
floatingse.member2.ballast_unit_cost |
USD/kg |
|
floatingse.member2.z_param |
m |
|
floatingse.member2.sec_loc |
normalized sectional location |
|
floatingse.member2.str_tw |
deg |
structural twist of section |
floatingse.member2.tw_iner |
deg |
inertial twist of section |
floatingse.member2.mass_den |
kg/m |
sectional mass per unit length |
floatingse.member2.foreaft_iner |
kg*m |
sectional fore-aft intertia per unit length about the Y_G inertia axis |
floatingse.member2.sideside_iner |
kg*m |
sectional side-side intertia per unit length about the Y_G inertia axis |
floatingse.member2.foreaft_stff |
N*m**2 |
sectional fore-aft bending stiffness per unit length about the Y_E elastic axis |
floatingse.member2.sideside_stff |
N*m**2 |
sectional side-side bending stiffness per unit length about the Y_E elastic axis |
floatingse.member2.tor_stff |
N*m**2 |
sectional torsional stiffness |
floatingse.member2.axial_stff |
N |
sectional axial stiffness |
floatingse.member2.cg_offst |
m |
offset from the sectional center of mass |
floatingse.member2.sc_offst |
m |
offset from the sectional shear center |
floatingse.member2.tc_offst |
m |
offset from the sectional tension center |
floatingse.member2.axial_load2stress |
m**2 |
|
floatingse.member2.shear_load2stress |
m**2 |
|
floatingse.member2.constr_d_to_t |
||
floatingse.member2.constr_taper |
||
floatingse.member2.slope |
||
floatingse.member2.thickness_slope |
||
floatingse.member2.s_full |
m |
|
floatingse.member2.z_full |
m |
|
floatingse.member2.d_full |
m |
|
floatingse.member2.t_full |
m |
|
floatingse.member2.E_full |
Pa |
|
floatingse.member2.G_full |
Pa |
|
floatingse.member2.nu_full |
||
floatingse.member2.sigma_y_full |
Pa |
|
floatingse.member2.rho_full |
kg/m**3 |
|
floatingse.member2.unit_cost_full |
USD/kg |
|
floatingse.member2.outfitting_full |
||
floatingse.member2.nodes_r |
m |
|
floatingse.member2.nodes_xyz |
m |
|
floatingse.member2.z_global |
m |
|
floatingse.member2.center_of_buoyancy |
m |
|
floatingse.member2.displacement |
m**3 |
|
floatingse.member2.buoyancy_force |
N |
|
floatingse.member2.idx_cb |
||
floatingse.member2.Awater |
m**2 |
|
floatingse.member2.Iwater |
m**4 |
|
floatingse.member2.added_mass |
kg |
|
floatingse.member2.waterline_centroid |
m |
|
floatingse.member2.z_dim |
m |
|
floatingse.member2.d_eff |
m |
|
floatingse.member2.shell_cost |
USD |
|
floatingse.member2.shell_mass |
kg |
|
floatingse.member2.shell_z_cg |
m |
|
floatingse.member2.shell_I_base |
kg*m**2 |
|
floatingse.member2.bulkhead_mass |
kg |
|
floatingse.member2.bulkhead_z_cg |
m |
|
floatingse.member2.bulkhead_cost |
USD |
|
floatingse.member2.bulkhead_I_base |
kg*m**2 |
|
floatingse.member2.stiffener_mass |
kg |
|
floatingse.member2.stiffener_z_cg |
m |
|
floatingse.member2.stiffener_cost |
USD |
|
floatingse.member2.stiffener_I_base |
kg*m**2 |
|
floatingse.member2.flange_spacing_ratio |
||
floatingse.member2.stiffener_radius_ratio |
||
floatingse.member2.constr_flange_compactness |
||
floatingse.member2.constr_web_compactness |
||
floatingse.member2.ballast_cost |
USD |
|
floatingse.member2.ballast_mass |
kg |
|
floatingse.member2.ballast_height |
||
floatingse.member2.ballast_z_cg |
m |
|
floatingse.member2.ballast_I_base |
kg*m**2 |
|
floatingse.member2.variable_ballast_capacity |
m**3 |
|
floatingse.member2.variable_ballast_Vpts |
m**3 |
|
floatingse.member2.variable_ballast_spts |
||
floatingse.member2.constr_ballast_capacity |
||
floatingse.member2.total_mass |
kg |
|
floatingse.member2.total_cost |
USD |
|
floatingse.member2.structural_mass |
kg |
|
floatingse.member2.structural_cost |
USD |
|
floatingse.member2.z_cg |
m |
|
floatingse.member2.I_total |
kg*m**2 |
|
floatingse.member2.s_all |
||
floatingse.member2.center_of_mass |
m |
|
floatingse.member2.nodes_r_all |
m |
|
floatingse.member2.nodes_xyz_all |
m |
|
floatingse.member2.section_D |
m |
|
floatingse.member2.section_t |
m |
|
floatingse.member2.section_A |
m**2 |
|
floatingse.member2.section_Asx |
m**2 |
|
floatingse.member2.section_Asy |
m**2 |
|
floatingse.member2.section_Ixx |
kg*m**2 |
|
floatingse.member2.section_Iyy |
kg*m**2 |
|
floatingse.member2.section_J0 |
kg*m**2 |
|
floatingse.member2.section_rho |
kg/m**3 |
|
floatingse.member2.section_E |
Pa |
|
floatingse.member2.section_G |
Pa |
|
floatingse.member2.section_sigma_y |
Pa |
|
floatingse.member3.s |
||
floatingse.member3.height |
m |
|
floatingse.member3.section_height |
m |
|
floatingse.member3.outer_diameter |
m |
|
floatingse.member3.wall_thickness |
m |
|
floatingse.member3.E |
Pa |
|
floatingse.member3.G |
Pa |
|
floatingse.member3.sigma_y |
Pa |
|
floatingse.member3.sigma_ult |
Pa |
|
floatingse.member3.wohler_exp |
||
floatingse.member3.wohler_A |
||
floatingse.member3.rho |
kg/m**3 |
|
floatingse.member3.unit_cost |
USD/kg |
|
floatingse.member3.outfitting_factor |
||
floatingse.member3.ballast_density |
kg/m**3 |
|
floatingse.member3.ballast_unit_cost |
USD/kg |
|
floatingse.member3.z_param |
m |
|
floatingse.member3.sec_loc |
normalized sectional location |
|
floatingse.member3.str_tw |
deg |
structural twist of section |
floatingse.member3.tw_iner |
deg |
inertial twist of section |
floatingse.member3.mass_den |
kg/m |
sectional mass per unit length |
floatingse.member3.foreaft_iner |
kg*m |
sectional fore-aft intertia per unit length about the Y_G inertia axis |
floatingse.member3.sideside_iner |
kg*m |
sectional side-side intertia per unit length about the Y_G inertia axis |
floatingse.member3.foreaft_stff |
N*m**2 |
sectional fore-aft bending stiffness per unit length about the Y_E elastic axis |
floatingse.member3.sideside_stff |
N*m**2 |
sectional side-side bending stiffness per unit length about the Y_E elastic axis |
floatingse.member3.tor_stff |
N*m**2 |
sectional torsional stiffness |
floatingse.member3.axial_stff |
N |
sectional axial stiffness |
floatingse.member3.cg_offst |
m |
offset from the sectional center of mass |
floatingse.member3.sc_offst |
m |
offset from the sectional shear center |
floatingse.member3.tc_offst |
m |
offset from the sectional tension center |
floatingse.member3.axial_load2stress |
m**2 |
|
floatingse.member3.shear_load2stress |
m**2 |
|
floatingse.member3.constr_d_to_t |
||
floatingse.member3.constr_taper |
||
floatingse.member3.slope |
||
floatingse.member3.thickness_slope |
||
floatingse.member3.s_full |
m |
|
floatingse.member3.z_full |
m |
|
floatingse.member3.d_full |
m |
|
floatingse.member3.t_full |
m |
|
floatingse.member3.E_full |
Pa |
|
floatingse.member3.G_full |
Pa |
|
floatingse.member3.nu_full |
||
floatingse.member3.sigma_y_full |
Pa |
|
floatingse.member3.rho_full |
kg/m**3 |
|
floatingse.member3.unit_cost_full |
USD/kg |
|
floatingse.member3.outfitting_full |
||
floatingse.member3.nodes_r |
m |
|
floatingse.member3.nodes_xyz |
m |
|
floatingse.member3.z_global |
m |
|
floatingse.member3.center_of_buoyancy |
m |
|
floatingse.member3.displacement |
m**3 |
|
floatingse.member3.buoyancy_force |
N |
|
floatingse.member3.idx_cb |
||
floatingse.member3.Awater |
m**2 |
|
floatingse.member3.Iwater |
m**4 |
|
floatingse.member3.added_mass |
kg |
|
floatingse.member3.waterline_centroid |
m |
|
floatingse.member3.z_dim |
m |
|
floatingse.member3.d_eff |
m |
|
floatingse.member3.shell_cost |
USD |
|
floatingse.member3.shell_mass |
kg |
|
floatingse.member3.shell_z_cg |
m |
|
floatingse.member3.shell_I_base |
kg*m**2 |
|
floatingse.member3.bulkhead_mass |
kg |
|
floatingse.member3.bulkhead_z_cg |
m |
|
floatingse.member3.bulkhead_cost |
USD |
|
floatingse.member3.bulkhead_I_base |
kg*m**2 |
|
floatingse.member3.stiffener_mass |
kg |
|
floatingse.member3.stiffener_z_cg |
m |
|
floatingse.member3.stiffener_cost |
USD |
|
floatingse.member3.stiffener_I_base |
kg*m**2 |
|
floatingse.member3.flange_spacing_ratio |
||
floatingse.member3.stiffener_radius_ratio |
||
floatingse.member3.constr_flange_compactness |
||
floatingse.member3.constr_web_compactness |
||
floatingse.member3.ballast_cost |
USD |
|
floatingse.member3.ballast_mass |
kg |
|
floatingse.member3.ballast_height |
||
floatingse.member3.ballast_z_cg |
m |
|
floatingse.member3.ballast_I_base |
kg*m**2 |
|
floatingse.member3.variable_ballast_capacity |
m**3 |
|
floatingse.member3.variable_ballast_Vpts |
m**3 |
|
floatingse.member3.variable_ballast_spts |
||
floatingse.member3.constr_ballast_capacity |
||
floatingse.member3.total_mass |
kg |
|
floatingse.member3.total_cost |
USD |
|
floatingse.member3.structural_mass |
kg |
|
floatingse.member3.structural_cost |
USD |
|
floatingse.member3.z_cg |
m |
|
floatingse.member3.I_total |
kg*m**2 |
|
floatingse.member3.s_all |
||
floatingse.member3.center_of_mass |
m |
|
floatingse.member3.nodes_r_all |
m |
|
floatingse.member3.nodes_xyz_all |
m |
|
floatingse.member3.section_D |
m |
|
floatingse.member3.section_t |
m |
|
floatingse.member3.section_A |
m**2 |
|
floatingse.member3.section_Asx |
m**2 |
|
floatingse.member3.section_Asy |
m**2 |
|
floatingse.member3.section_Ixx |
kg*m**2 |
|
floatingse.member3.section_Iyy |
kg*m**2 |
|
floatingse.member3.section_J0 |
kg*m**2 |
|
floatingse.member3.section_rho |
kg/m**3 |
|
floatingse.member3.section_E |
Pa |
|
floatingse.member3.section_G |
Pa |
|
floatingse.member3.section_sigma_y |
Pa |
|
floatingse.member4.s |
||
floatingse.member4.height |
m |
|
floatingse.member4.section_height |
m |
|
floatingse.member4.outer_diameter |
m |
|
floatingse.member4.wall_thickness |
m |
|
floatingse.member4.E |
Pa |
|
floatingse.member4.G |
Pa |
|
floatingse.member4.sigma_y |
Pa |
|
floatingse.member4.sigma_ult |
Pa |
|
floatingse.member4.wohler_exp |
||
floatingse.member4.wohler_A |
||
floatingse.member4.rho |
kg/m**3 |
|
floatingse.member4.unit_cost |
USD/kg |
|
floatingse.member4.outfitting_factor |
||
floatingse.member4.ballast_density |
kg/m**3 |
|
floatingse.member4.ballast_unit_cost |
USD/kg |
|
floatingse.member4.z_param |
m |
|
floatingse.member4.sec_loc |
normalized sectional location |
|
floatingse.member4.str_tw |
deg |
structural twist of section |
floatingse.member4.tw_iner |
deg |
inertial twist of section |
floatingse.member4.mass_den |
kg/m |
sectional mass per unit length |
floatingse.member4.foreaft_iner |
kg*m |
sectional fore-aft intertia per unit length about the Y_G inertia axis |
floatingse.member4.sideside_iner |
kg*m |
sectional side-side intertia per unit length about the Y_G inertia axis |
floatingse.member4.foreaft_stff |
N*m**2 |
sectional fore-aft bending stiffness per unit length about the Y_E elastic axis |
floatingse.member4.sideside_stff |
N*m**2 |
sectional side-side bending stiffness per unit length about the Y_E elastic axis |
floatingse.member4.tor_stff |
N*m**2 |
sectional torsional stiffness |
floatingse.member4.axial_stff |
N |
sectional axial stiffness |
floatingse.member4.cg_offst |
m |
offset from the sectional center of mass |
floatingse.member4.sc_offst |
m |
offset from the sectional shear center |
floatingse.member4.tc_offst |
m |
offset from the sectional tension center |
floatingse.member4.axial_load2stress |
m**2 |
|
floatingse.member4.shear_load2stress |
m**2 |
|
floatingse.member4.constr_d_to_t |
||
floatingse.member4.constr_taper |
||
floatingse.member4.slope |
||
floatingse.member4.s_full |
m |
|
floatingse.member4.z_full |
m |
|
floatingse.member4.d_full |
m |
|
floatingse.member4.t_full |
m |
|
floatingse.member4.E_full |
Pa |
|
floatingse.member4.G_full |
Pa |
|
floatingse.member4.nu_full |
||
floatingse.member4.sigma_y_full |
Pa |
|
floatingse.member4.rho_full |
kg/m**3 |
|
floatingse.member4.unit_cost_full |
USD/kg |
|
floatingse.member4.outfitting_full |
||
floatingse.member4.nodes_r |
m |
|
floatingse.member4.nodes_xyz |
m |
|
floatingse.member4.z_global |
m |
|
floatingse.member4.center_of_buoyancy |
m |
|
floatingse.member4.displacement |
m**3 |
|
floatingse.member4.buoyancy_force |
N |
|
floatingse.member4.idx_cb |
||
floatingse.member4.Awater |
m**2 |
|
floatingse.member4.Iwater |
m**4 |
|
floatingse.member4.added_mass |
kg |
|
floatingse.member4.waterline_centroid |
m |
|
floatingse.member4.z_dim |
m |
|
floatingse.member4.d_eff |
m |
|
floatingse.member4.shell_cost |
USD |
|
floatingse.member4.shell_mass |
kg |
|
floatingse.member4.shell_z_cg |
m |
|
floatingse.member4.shell_I_base |
kg*m**2 |
|
floatingse.member4.bulkhead_mass |
kg |
|
floatingse.member4.bulkhead_z_cg |
m |
|
floatingse.member4.bulkhead_cost |
USD |
|
floatingse.member4.bulkhead_I_base |
kg*m**2 |
|
floatingse.member4.stiffener_mass |
kg |
|
floatingse.member4.stiffener_z_cg |
m |
|
floatingse.member4.stiffener_cost |
USD |
|
floatingse.member4.stiffener_I_base |
kg*m**2 |
|
floatingse.member4.flange_spacing_ratio |
||
floatingse.member4.stiffener_radius_ratio |
||
floatingse.member4.constr_flange_compactness |
||
floatingse.member4.constr_web_compactness |
||
floatingse.member4.ballast_cost |
USD |
|
floatingse.member4.ballast_mass |
kg |
|
floatingse.member4.ballast_height |
||
floatingse.member4.ballast_z_cg |
m |
|
floatingse.member4.ballast_I_base |
kg*m**2 |
|
floatingse.member4.variable_ballast_capacity |
m**3 |
|
floatingse.member4.variable_ballast_Vpts |
m**3 |
|
floatingse.member4.variable_ballast_spts |
||
floatingse.member4.constr_ballast_capacity |
||
floatingse.member4.total_mass |
kg |
|
floatingse.member4.total_cost |
USD |
|
floatingse.member4.structural_mass |
kg |
|
floatingse.member4.structural_cost |
USD |
|
floatingse.member4.z_cg |
m |
|
floatingse.member4.I_total |
kg*m**2 |
|
floatingse.member4.s_all |
||
floatingse.member4.center_of_mass |
m |
|
floatingse.member4.nodes_r_all |
m |
|
floatingse.member4.nodes_xyz_all |
m |
|
floatingse.member4.section_D |
m |
|
floatingse.member4.section_t |
m |
|
floatingse.member4.section_A |
m**2 |
|
floatingse.member4.section_Asx |
m**2 |
|
floatingse.member4.section_Asy |
m**2 |
|
floatingse.member4.section_Ixx |
kg*m**2 |
|
floatingse.member4.section_Iyy |
kg*m**2 |
|
floatingse.member4.section_J0 |
kg*m**2 |
|
floatingse.member4.section_rho |
kg/m**3 |
|
floatingse.member4.section_E |
Pa |
|
floatingse.member4.section_G |
Pa |
|
floatingse.member4.section_sigma_y |
Pa |
|
floatingse.member5.s |
||
floatingse.member5.height |
m |
|
floatingse.member5.section_height |
m |
|
floatingse.member5.outer_diameter |
m |
|
floatingse.member5.wall_thickness |
m |
|
floatingse.member5.E |
Pa |
|
floatingse.member5.G |
Pa |
|
floatingse.member5.sigma_y |
Pa |
|
floatingse.member5.sigma_ult |
Pa |
|
floatingse.member5.wohler_exp |
||
floatingse.member5.wohler_A |
||
floatingse.member5.rho |
kg/m**3 |
|
floatingse.member5.unit_cost |
USD/kg |
|
floatingse.member5.outfitting_factor |
||
floatingse.member5.ballast_density |
kg/m**3 |
|
floatingse.member5.ballast_unit_cost |
USD/kg |
|
floatingse.member5.z_param |
m |
|
floatingse.member5.sec_loc |
normalized sectional location |
|
floatingse.member5.str_tw |
deg |
structural twist of section |
floatingse.member5.tw_iner |
deg |
inertial twist of section |
floatingse.member5.mass_den |
kg/m |
sectional mass per unit length |
floatingse.member5.foreaft_iner |
kg*m |
sectional fore-aft intertia per unit length about the Y_G inertia axis |
floatingse.member5.sideside_iner |
kg*m |
sectional side-side intertia per unit length about the Y_G inertia axis |
floatingse.member5.foreaft_stff |
N*m**2 |
sectional fore-aft bending stiffness per unit length about the Y_E elastic axis |
floatingse.member5.sideside_stff |
N*m**2 |
sectional side-side bending stiffness per unit length about the Y_E elastic axis |
floatingse.member5.tor_stff |
N*m**2 |
sectional torsional stiffness |
floatingse.member5.axial_stff |
N |
sectional axial stiffness |
floatingse.member5.cg_offst |
m |
offset from the sectional center of mass |
floatingse.member5.sc_offst |
m |
offset from the sectional shear center |
floatingse.member5.tc_offst |
m |
offset from the sectional tension center |
floatingse.member5.axial_load2stress |
m**2 |
|
floatingse.member5.shear_load2stress |
m**2 |
|
floatingse.member5.constr_d_to_t |
||
floatingse.member5.constr_taper |
||
floatingse.member5.slope |
||
floatingse.member5.s_full |
m |
|
floatingse.member5.z_full |
m |
|
floatingse.member5.d_full |
m |
|
floatingse.member5.t_full |
m |
|
floatingse.member5.E_full |
Pa |
|
floatingse.member5.G_full |
Pa |
|
floatingse.member5.nu_full |
||
floatingse.member5.sigma_y_full |
Pa |
|
floatingse.member5.rho_full |
kg/m**3 |
|
floatingse.member5.unit_cost_full |
USD/kg |
|
floatingse.member5.outfitting_full |
||
floatingse.member5.nodes_r |
m |
|
floatingse.member5.nodes_xyz |
m |
|
floatingse.member5.z_global |
m |
|
floatingse.member5.center_of_buoyancy |
m |
|
floatingse.member5.displacement |
m**3 |
|
floatingse.member5.buoyancy_force |
N |
|
floatingse.member5.idx_cb |
||
floatingse.member5.Awater |
m**2 |
|
floatingse.member5.Iwater |
m**4 |
|
floatingse.member5.added_mass |
kg |
|
floatingse.member5.waterline_centroid |
m |
|
floatingse.member5.z_dim |
m |
|
floatingse.member5.d_eff |
m |
|
floatingse.member5.shell_cost |
USD |
|
floatingse.member5.shell_mass |
kg |
|
floatingse.member5.shell_z_cg |
m |
|
floatingse.member5.shell_I_base |
kg*m**2 |
|
floatingse.member5.bulkhead_mass |
kg |
|
floatingse.member5.bulkhead_z_cg |
m |
|
floatingse.member5.bulkhead_cost |
USD |
|
floatingse.member5.bulkhead_I_base |
kg*m**2 |
|
floatingse.member5.stiffener_mass |
kg |
|
floatingse.member5.stiffener_z_cg |
m |
|
floatingse.member5.stiffener_cost |
USD |
|
floatingse.member5.stiffener_I_base |
kg*m**2 |
|
floatingse.member5.flange_spacing_ratio |
||
floatingse.member5.stiffener_radius_ratio |
||
floatingse.member5.constr_flange_compactness |
||
floatingse.member5.constr_web_compactness |
||
floatingse.member5.ballast_cost |
USD |
|
floatingse.member5.ballast_mass |
kg |
|
floatingse.member5.ballast_height |
||
floatingse.member5.ballast_z_cg |
m |
|
floatingse.member5.ballast_I_base |
kg*m**2 |
|
floatingse.member5.variable_ballast_capacity |
m**3 |
|
floatingse.member5.variable_ballast_Vpts |
m**3 |
|
floatingse.member5.variable_ballast_spts |
||
floatingse.member5.constr_ballast_capacity |
||
floatingse.member5.total_mass |
kg |
|
floatingse.member5.total_cost |
USD |
|
floatingse.member5.structural_mass |
kg |
|
floatingse.member5.structural_cost |
USD |
|
floatingse.member5.z_cg |
m |
|
floatingse.member5.I_total |
kg*m**2 |
|
floatingse.member5.s_all |
||
floatingse.member5.center_of_mass |
m |
|
floatingse.member5.nodes_r_all |
m |
|
floatingse.member5.nodes_xyz_all |
m |
|
floatingse.member5.section_D |
m |
|
floatingse.member5.section_t |
m |
|
floatingse.member5.section_A |
m**2 |
|
floatingse.member5.section_Asx |
m**2 |
|
floatingse.member5.section_Asy |
m**2 |
|
floatingse.member5.section_Ixx |
kg*m**2 |
|
floatingse.member5.section_Iyy |
kg*m**2 |
|
floatingse.member5.section_J0 |
kg*m**2 |
|
floatingse.member5.section_rho |
kg/m**3 |
|
floatingse.member5.section_E |
Pa |
|
floatingse.member5.section_G |
Pa |
|
floatingse.member5.section_sigma_y |
Pa |
|
floatingse.member6.s |
||
floatingse.member6.height |
m |
|
floatingse.member6.section_height |
m |
|
floatingse.member6.outer_diameter |
m |
|
floatingse.member6.wall_thickness |
m |
|
floatingse.member6.E |
Pa |
|
floatingse.member6.G |
Pa |
|
floatingse.member6.sigma_y |
Pa |
|
floatingse.member6.sigma_ult |
Pa |
|
floatingse.member6.wohler_exp |
||
floatingse.member6.wohler_A |
||
floatingse.member6.rho |
kg/m**3 |
|
floatingse.member6.unit_cost |
USD/kg |
|
floatingse.member6.outfitting_factor |
||
floatingse.member6.ballast_density |
kg/m**3 |
|
floatingse.member6.ballast_unit_cost |
USD/kg |
|
floatingse.member6.z_param |
m |
|
floatingse.member6.sec_loc |
normalized sectional location |
|
floatingse.member6.str_tw |
deg |
structural twist of section |
floatingse.member6.tw_iner |
deg |
inertial twist of section |
floatingse.member6.mass_den |
kg/m |
sectional mass per unit length |
floatingse.member6.foreaft_iner |
kg*m |
sectional fore-aft intertia per unit length about the Y_G inertia axis |
floatingse.member6.sideside_iner |
kg*m |
sectional side-side intertia per unit length about the Y_G inertia axis |
floatingse.member6.foreaft_stff |
N*m**2 |
sectional fore-aft bending stiffness per unit length about the Y_E elastic axis |
floatingse.member6.sideside_stff |
N*m**2 |
sectional side-side bending stiffness per unit length about the Y_E elastic axis |
floatingse.member6.tor_stff |
N*m**2 |
sectional torsional stiffness |
floatingse.member6.axial_stff |
N |
sectional axial stiffness |
floatingse.member6.cg_offst |
m |
offset from the sectional center of mass |
floatingse.member6.sc_offst |
m |
offset from the sectional shear center |
floatingse.member6.tc_offst |
m |
offset from the sectional tension center |
floatingse.member6.axial_load2stress |
m**2 |
|
floatingse.member6.shear_load2stress |
m**2 |
|
floatingse.member6.constr_d_to_t |
||
floatingse.member6.constr_taper |
||
floatingse.member6.slope |
||
floatingse.member6.s_full |
m |
|
floatingse.member6.z_full |
m |
|
floatingse.member6.d_full |
m |
|
floatingse.member6.t_full |
m |
|
floatingse.member6.E_full |
Pa |
|
floatingse.member6.G_full |
Pa |
|
floatingse.member6.nu_full |
||
floatingse.member6.sigma_y_full |
Pa |
|
floatingse.member6.rho_full |
kg/m**3 |
|
floatingse.member6.unit_cost_full |
USD/kg |
|
floatingse.member6.outfitting_full |
||
floatingse.member6.nodes_r |
m |
|
floatingse.member6.nodes_xyz |
m |
|
floatingse.member6.z_global |
m |
|
floatingse.member6.center_of_buoyancy |
m |
|
floatingse.member6.displacement |
m**3 |
|
floatingse.member6.buoyancy_force |
N |
|
floatingse.member6.idx_cb |
||
floatingse.member6.Awater |
m**2 |
|
floatingse.member6.Iwater |
m**4 |
|
floatingse.member6.added_mass |
kg |
|
floatingse.member6.waterline_centroid |
m |
|
floatingse.member6.z_dim |
m |
|
floatingse.member6.d_eff |
m |
|
floatingse.member6.shell_cost |
USD |
|
floatingse.member6.shell_mass |
kg |
|
floatingse.member6.shell_z_cg |
m |
|
floatingse.member6.shell_I_base |
kg*m**2 |
|
floatingse.member6.bulkhead_mass |
kg |
|
floatingse.member6.bulkhead_z_cg |
m |
|
floatingse.member6.bulkhead_cost |
USD |
|
floatingse.member6.bulkhead_I_base |
kg*m**2 |
|
floatingse.member6.stiffener_mass |
kg |
|
floatingse.member6.stiffener_z_cg |
m |
|
floatingse.member6.stiffener_cost |
USD |
|
floatingse.member6.stiffener_I_base |
kg*m**2 |
|
floatingse.member6.flange_spacing_ratio |
||
floatingse.member6.stiffener_radius_ratio |
||
floatingse.member6.constr_flange_compactness |
||
floatingse.member6.constr_web_compactness |
||
floatingse.member6.ballast_cost |
USD |
|
floatingse.member6.ballast_mass |
kg |
|
floatingse.member6.ballast_height |
||
floatingse.member6.ballast_z_cg |
m |
|
floatingse.member6.ballast_I_base |
kg*m**2 |
|
floatingse.member6.variable_ballast_capacity |
m**3 |
|
floatingse.member6.variable_ballast_Vpts |
m**3 |
|
floatingse.member6.variable_ballast_spts |
||
floatingse.member6.constr_ballast_capacity |
||
floatingse.member6.total_mass |
kg |
|
floatingse.member6.total_cost |
USD |
|
floatingse.member6.structural_mass |
kg |
|
floatingse.member6.structural_cost |
USD |
|
floatingse.member6.z_cg |
m |
|
floatingse.member6.I_total |
kg*m**2 |
|
floatingse.member6.s_all |
||
floatingse.member6.center_of_mass |
m |
|
floatingse.member6.nodes_r_all |
m |
|
floatingse.member6.nodes_xyz_all |
m |
|
floatingse.member6.section_D |
m |
|
floatingse.member6.section_t |
m |
|
floatingse.member6.section_A |
m**2 |
|
floatingse.member6.section_Asx |
m**2 |
|
floatingse.member6.section_Asy |
m**2 |
|
floatingse.member6.section_Ixx |
kg*m**2 |
|
floatingse.member6.section_Iyy |
kg*m**2 |
|
floatingse.member6.section_J0 |
kg*m**2 |
|
floatingse.member6.section_rho |
kg/m**3 |
|
floatingse.member6.section_E |
Pa |
|
floatingse.member6.section_G |
Pa |
|
floatingse.member6.section_sigma_y |
Pa |
|
floatingse.member7.s |
||
floatingse.member7.height |
m |
|
floatingse.member7.section_height |
m |
|
floatingse.member7.outer_diameter |
m |
|
floatingse.member7.wall_thickness |
m |
|
floatingse.member7.E |
Pa |
|
floatingse.member7.G |
Pa |
|
floatingse.member7.sigma_y |
Pa |
|
floatingse.member7.sigma_ult |
Pa |
|
floatingse.member7.wohler_exp |
||
floatingse.member7.wohler_A |
||
floatingse.member7.rho |
kg/m**3 |
|
floatingse.member7.unit_cost |
USD/kg |
|
floatingse.member7.outfitting_factor |
||
floatingse.member7.ballast_density |
kg/m**3 |
|
floatingse.member7.ballast_unit_cost |
USD/kg |
|
floatingse.member7.z_param |
m |
|
floatingse.member7.sec_loc |
normalized sectional location |
|
floatingse.member7.str_tw |
deg |
structural twist of section |
floatingse.member7.tw_iner |
deg |
inertial twist of section |
floatingse.member7.mass_den |
kg/m |
sectional mass per unit length |
floatingse.member7.foreaft_iner |
kg*m |
sectional fore-aft intertia per unit length about the Y_G inertia axis |
floatingse.member7.sideside_iner |
kg*m |
sectional side-side intertia per unit length about the Y_G inertia axis |
floatingse.member7.foreaft_stff |
N*m**2 |
sectional fore-aft bending stiffness per unit length about the Y_E elastic axis |
floatingse.member7.sideside_stff |
N*m**2 |
sectional side-side bending stiffness per unit length about the Y_E elastic axis |
floatingse.member7.tor_stff |
N*m**2 |
sectional torsional stiffness |
floatingse.member7.axial_stff |
N |
sectional axial stiffness |
floatingse.member7.cg_offst |
m |
offset from the sectional center of mass |
floatingse.member7.sc_offst |
m |
offset from the sectional shear center |
floatingse.member7.tc_offst |
m |
offset from the sectional tension center |
floatingse.member7.axial_load2stress |
m**2 |
|
floatingse.member7.shear_load2stress |
m**2 |
|
floatingse.member7.constr_d_to_t |
||
floatingse.member7.constr_taper |
||
floatingse.member7.slope |
||
floatingse.member7.s_full |
m |
|
floatingse.member7.z_full |
m |
|
floatingse.member7.d_full |
m |
|
floatingse.member7.t_full |
m |
|
floatingse.member7.E_full |
Pa |
|
floatingse.member7.G_full |
Pa |
|
floatingse.member7.nu_full |
||
floatingse.member7.sigma_y_full |
Pa |
|
floatingse.member7.rho_full |
kg/m**3 |
|
floatingse.member7.unit_cost_full |
USD/kg |
|
floatingse.member7.outfitting_full |
||
floatingse.member7.nodes_r |
m |
|
floatingse.member7.nodes_xyz |
m |
|
floatingse.member7.z_global |
m |
|
floatingse.member7.center_of_buoyancy |
m |
|
floatingse.member7.displacement |
m**3 |
|
floatingse.member7.buoyancy_force |
N |
|
floatingse.member7.idx_cb |
||
floatingse.member7.Awater |
m**2 |
|
floatingse.member7.Iwater |
m**4 |
|
floatingse.member7.added_mass |
kg |
|
floatingse.member7.waterline_centroid |
m |
|
floatingse.member7.z_dim |
m |
|
floatingse.member7.d_eff |
m |
|
floatingse.member7.shell_cost |
USD |
|
floatingse.member7.shell_mass |
kg |
|
floatingse.member7.shell_z_cg |
m |
|
floatingse.member7.shell_I_base |
kg*m**2 |
|
floatingse.member7.bulkhead_mass |
kg |
|
floatingse.member7.bulkhead_z_cg |
m |
|
floatingse.member7.bulkhead_cost |
USD |
|
floatingse.member7.bulkhead_I_base |
kg*m**2 |
|
floatingse.member7.stiffener_mass |
kg |
|
floatingse.member7.stiffener_z_cg |
m |
|
floatingse.member7.stiffener_cost |
USD |
|
floatingse.member7.stiffener_I_base |
kg*m**2 |
|
floatingse.member7.flange_spacing_ratio |
||
floatingse.member7.stiffener_radius_ratio |
||
floatingse.member7.constr_flange_compactness |
||
floatingse.member7.constr_web_compactness |
||
floatingse.member7.ballast_cost |
USD |
|
floatingse.member7.ballast_mass |
kg |
|
floatingse.member7.ballast_height |
||
floatingse.member7.ballast_z_cg |
m |
|
floatingse.member7.ballast_I_base |
kg*m**2 |
|
floatingse.member7.variable_ballast_capacity |
m**3 |
|
floatingse.member7.variable_ballast_Vpts |
m**3 |
|
floatingse.member7.variable_ballast_spts |
||
floatingse.member7.constr_ballast_capacity |
||
floatingse.member7.total_mass |
kg |
|
floatingse.member7.total_cost |
USD |
|
floatingse.member7.structural_mass |
kg |
|
floatingse.member7.structural_cost |
USD |
|
floatingse.member7.z_cg |
m |
|
floatingse.member7.I_total |
kg*m**2 |
|
floatingse.member7.s_all |
||
floatingse.member7.center_of_mass |
m |
|
floatingse.member7.nodes_r_all |
m |
|
floatingse.member7.nodes_xyz_all |
m |
|
floatingse.member7.section_D |
m |
|
floatingse.member7.section_t |
m |
|
floatingse.member7.section_A |
m**2 |
|
floatingse.member7.section_Asx |
m**2 |
|
floatingse.member7.section_Asy |
m**2 |
|
floatingse.member7.section_Ixx |
kg*m**2 |
|
floatingse.member7.section_Iyy |
kg*m**2 |
|
floatingse.member7.section_J0 |
kg*m**2 |
|
floatingse.member7.section_rho |
kg/m**3 |
|
floatingse.member7.section_E |
Pa |
|
floatingse.member7.section_G |
Pa |
|
floatingse.member7.section_sigma_y |
Pa |
|
floatingse.member8.s |
||
floatingse.member8.height |
m |
|
floatingse.member8.section_height |
m |
|
floatingse.member8.outer_diameter |
m |
|
floatingse.member8.wall_thickness |
m |
|
floatingse.member8.E |
Pa |
|
floatingse.member8.G |
Pa |
|
floatingse.member8.sigma_y |
Pa |
|
floatingse.member8.sigma_ult |
Pa |
|
floatingse.member8.wohler_exp |
||
floatingse.member8.wohler_A |
||
floatingse.member8.rho |
kg/m**3 |
|
floatingse.member8.unit_cost |
USD/kg |
|
floatingse.member8.outfitting_factor |
||
floatingse.member8.ballast_density |
kg/m**3 |
|
floatingse.member8.ballast_unit_cost |
USD/kg |
|
floatingse.member8.z_param |
m |
|
floatingse.member8.sec_loc |
normalized sectional location |
|
floatingse.member8.str_tw |
deg |
structural twist of section |
floatingse.member8.tw_iner |
deg |
inertial twist of section |
floatingse.member8.mass_den |
kg/m |
sectional mass per unit length |
floatingse.member8.foreaft_iner |
kg*m |
sectional fore-aft intertia per unit length about the Y_G inertia axis |
floatingse.member8.sideside_iner |
kg*m |
sectional side-side intertia per unit length about the Y_G inertia axis |
floatingse.member8.foreaft_stff |
N*m**2 |
sectional fore-aft bending stiffness per unit length about the Y_E elastic axis |
floatingse.member8.sideside_stff |
N*m**2 |
sectional side-side bending stiffness per unit length about the Y_E elastic axis |
floatingse.member8.tor_stff |
N*m**2 |
sectional torsional stiffness |
floatingse.member8.axial_stff |
N |
sectional axial stiffness |
floatingse.member8.cg_offst |
m |
offset from the sectional center of mass |
floatingse.member8.sc_offst |
m |
offset from the sectional shear center |
floatingse.member8.tc_offst |
m |
offset from the sectional tension center |
floatingse.member8.axial_load2stress |
m**2 |
|
floatingse.member8.shear_load2stress |
m**2 |
|
floatingse.member8.constr_d_to_t |
||
floatingse.member8.constr_taper |
||
floatingse.member8.slope |
||
floatingse.member8.s_full |
m |
|
floatingse.member8.z_full |
m |
|
floatingse.member8.d_full |
m |
|
floatingse.member8.t_full |
m |
|
floatingse.member8.E_full |
Pa |
|
floatingse.member8.G_full |
Pa |
|
floatingse.member8.nu_full |
||
floatingse.member8.sigma_y_full |
Pa |
|
floatingse.member8.rho_full |
kg/m**3 |
|
floatingse.member8.unit_cost_full |
USD/kg |
|
floatingse.member8.outfitting_full |
||
floatingse.member8.nodes_r |
m |
|
floatingse.member8.nodes_xyz |
m |
|
floatingse.member8.z_global |
m |
|
floatingse.member8.center_of_buoyancy |
m |
|
floatingse.member8.displacement |
m**3 |
|
floatingse.member8.buoyancy_force |
N |
|
floatingse.member8.idx_cb |
||
floatingse.member8.Awater |
m**2 |
|
floatingse.member8.Iwater |
m**4 |
|
floatingse.member8.added_mass |
kg |
|
floatingse.member8.waterline_centroid |
m |
|
floatingse.member8.z_dim |
m |
|
floatingse.member8.d_eff |
m |
|
floatingse.member8.shell_cost |
USD |
|
floatingse.member8.shell_mass |
kg |
|
floatingse.member8.shell_z_cg |
m |
|
floatingse.member8.shell_I_base |
kg*m**2 |
|
floatingse.member8.bulkhead_mass |
kg |
|
floatingse.member8.bulkhead_z_cg |
m |
|
floatingse.member8.bulkhead_cost |
USD |
|
floatingse.member8.bulkhead_I_base |
kg*m**2 |
|
floatingse.member8.stiffener_mass |
kg |
|
floatingse.member8.stiffener_z_cg |
m |
|
floatingse.member8.stiffener_cost |
USD |
|
floatingse.member8.stiffener_I_base |
kg*m**2 |
|
floatingse.member8.flange_spacing_ratio |
||
floatingse.member8.stiffener_radius_ratio |
||
floatingse.member8.constr_flange_compactness |
||
floatingse.member8.constr_web_compactness |
||
floatingse.member8.ballast_cost |
USD |
|
floatingse.member8.ballast_mass |
kg |
|
floatingse.member8.ballast_height |
||
floatingse.member8.ballast_z_cg |
m |
|
floatingse.member8.ballast_I_base |
kg*m**2 |
|
floatingse.member8.variable_ballast_capacity |
m**3 |
|
floatingse.member8.variable_ballast_Vpts |
m**3 |
|
floatingse.member8.variable_ballast_spts |
||
floatingse.member8.constr_ballast_capacity |
||
floatingse.member8.total_mass |
kg |
|
floatingse.member8.total_cost |
USD |
|
floatingse.member8.structural_mass |
kg |
|
floatingse.member8.structural_cost |
USD |
|
floatingse.member8.z_cg |
m |
|
floatingse.member8.I_total |
kg*m**2 |
|
floatingse.member8.s_all |
||
floatingse.member8.center_of_mass |
m |
|
floatingse.member8.nodes_r_all |
m |
|
floatingse.member8.nodes_xyz_all |
m |
|
floatingse.member8.section_D |
m |
|
floatingse.member8.section_t |
m |
|
floatingse.member8.section_A |
m**2 |
|
floatingse.member8.section_Asx |
m**2 |
|
floatingse.member8.section_Asy |
m**2 |
|
floatingse.member8.section_Ixx |
kg*m**2 |
|
floatingse.member8.section_Iyy |
kg*m**2 |
|
floatingse.member8.section_J0 |
kg*m**2 |
|
floatingse.member8.section_rho |
kg/m**3 |
|
floatingse.member8.section_E |
Pa |
|
floatingse.member8.section_G |
Pa |
|
floatingse.member8.section_sigma_y |
Pa |
|
floatingse.member9.s |
||
floatingse.member9.height |
m |
|
floatingse.member9.section_height |
m |
|
floatingse.member9.outer_diameter |
m |
|
floatingse.member9.wall_thickness |
m |
|
floatingse.member9.E |
Pa |
|
floatingse.member9.G |
Pa |
|
floatingse.member9.sigma_y |
Pa |
|
floatingse.member9.sigma_ult |
Pa |
|
floatingse.member9.wohler_exp |
||
floatingse.member9.wohler_A |
||
floatingse.member9.rho |
kg/m**3 |
|
floatingse.member9.unit_cost |
USD/kg |
|
floatingse.member9.outfitting_factor |
||
floatingse.member9.ballast_density |
kg/m**3 |
|
floatingse.member9.ballast_unit_cost |
USD/kg |
|
floatingse.member9.z_param |
m |
|
floatingse.member9.sec_loc |
normalized sectional location |
|
floatingse.member9.str_tw |
deg |
structural twist of section |
floatingse.member9.tw_iner |
deg |
inertial twist of section |
floatingse.member9.mass_den |
kg/m |
sectional mass per unit length |
floatingse.member9.foreaft_iner |
kg*m |
sectional fore-aft intertia per unit length about the Y_G inertia axis |
floatingse.member9.sideside_iner |
kg*m |
sectional side-side intertia per unit length about the Y_G inertia axis |
floatingse.member9.foreaft_stff |
N*m**2 |
sectional fore-aft bending stiffness per unit length about the Y_E elastic axis |
floatingse.member9.sideside_stff |
N*m**2 |
sectional side-side bending stiffness per unit length about the Y_E elastic axis |
floatingse.member9.tor_stff |
N*m**2 |
sectional torsional stiffness |
floatingse.member9.axial_stff |
N |
sectional axial stiffness |
floatingse.member9.cg_offst |
m |
offset from the sectional center of mass |
floatingse.member9.sc_offst |
m |
offset from the sectional shear center |
floatingse.member9.tc_offst |
m |
offset from the sectional tension center |
floatingse.member9.axial_load2stress |
m**2 |
|
floatingse.member9.shear_load2stress |
m**2 |
|
floatingse.member9.constr_d_to_t |
||
floatingse.member9.constr_taper |
||
floatingse.member9.slope |
||
floatingse.member9.s_full |
m |
|
floatingse.member9.z_full |
m |
|
floatingse.member9.d_full |
m |
|
floatingse.member9.t_full |
m |
|
floatingse.member9.E_full |
Pa |
|
floatingse.member9.G_full |
Pa |
|
floatingse.member9.nu_full |
||
floatingse.member9.sigma_y_full |
Pa |
|
floatingse.member9.rho_full |
kg/m**3 |
|
floatingse.member9.unit_cost_full |
USD/kg |
|
floatingse.member9.outfitting_full |
||
floatingse.member9.nodes_r |
m |
|
floatingse.member9.nodes_xyz |
m |
|
floatingse.member9.z_global |
m |
|
floatingse.member9.center_of_buoyancy |
m |
|
floatingse.member9.displacement |
m**3 |
|
floatingse.member9.buoyancy_force |
N |
|
floatingse.member9.idx_cb |
||
floatingse.member9.Awater |
m**2 |
|
floatingse.member9.Iwater |
m**4 |
|
floatingse.member9.added_mass |
kg |
|
floatingse.member9.waterline_centroid |
m |
|
floatingse.member9.z_dim |
m |
|
floatingse.member9.d_eff |
m |
|
floatingse.member9.shell_cost |
USD |
|
floatingse.member9.shell_mass |
kg |
|
floatingse.member9.shell_z_cg |
m |
|
floatingse.member9.shell_I_base |
kg*m**2 |
|
floatingse.member9.bulkhead_mass |
kg |
|
floatingse.member9.bulkhead_z_cg |
m |
|
floatingse.member9.bulkhead_cost |
USD |
|
floatingse.member9.bulkhead_I_base |
kg*m**2 |
|
floatingse.member9.stiffener_mass |
kg |
|
floatingse.member9.stiffener_z_cg |
m |
|
floatingse.member9.stiffener_cost |
USD |
|
floatingse.member9.stiffener_I_base |
kg*m**2 |
|
floatingse.member9.flange_spacing_ratio |
||
floatingse.member9.stiffener_radius_ratio |
||
floatingse.member9.constr_flange_compactness |
||
floatingse.member9.constr_web_compactness |
||
floatingse.member9.ballast_cost |
USD |
|
floatingse.member9.ballast_mass |
kg |
|
floatingse.member9.ballast_height |
||
floatingse.member9.ballast_z_cg |
m |
|
floatingse.member9.ballast_I_base |
kg*m**2 |
|
floatingse.member9.variable_ballast_capacity |
m**3 |
|
floatingse.member9.variable_ballast_Vpts |
m**3 |
|
floatingse.member9.variable_ballast_spts |
||
floatingse.member9.constr_ballast_capacity |
||
floatingse.member9.total_mass |
kg |
|
floatingse.member9.total_cost |
USD |
|
floatingse.member9.structural_mass |
kg |
|
floatingse.member9.structural_cost |
USD |
|
floatingse.member9.z_cg |
m |
|
floatingse.member9.I_total |
kg*m**2 |
|
floatingse.member9.s_all |
||
floatingse.member9.center_of_mass |
m |
|
floatingse.member9.nodes_r_all |
m |
|
floatingse.member9.nodes_xyz_all |
m |
|
floatingse.member9.section_D |
m |
|
floatingse.member9.section_t |
m |
|
floatingse.member9.section_A |
m**2 |
|
floatingse.member9.section_Asx |
m**2 |
|
floatingse.member9.section_Asy |
m**2 |
|
floatingse.member9.section_Ixx |
kg*m**2 |
|
floatingse.member9.section_Iyy |
kg*m**2 |
|
floatingse.member9.section_J0 |
kg*m**2 |
|
floatingse.member9.section_rho |
kg/m**3 |
|
floatingse.member9.section_E |
Pa |
|
floatingse.member9.section_G |
Pa |
|
floatingse.member9.section_sigma_y |
Pa |
|
floatingse.transition_piece_I |
kg*m**2 |
|
floatingse.platform_nodes |
m |
|
floatingse.platform_Fnode |
N |
|
floatingse.platform_Rnode |
m |
|
floatingse.platform_elem_n1 |
||
floatingse.platform_elem_n2 |
||
floatingse.platform_elem_L |
m |
|
floatingse.platform_elem_D |
m |
|
floatingse.platform_elem_t |
m |
|
floatingse.platform_elem_A |
m**2 |
|
floatingse.platform_elem_Asx |
m**2 |
|
floatingse.platform_elem_Asy |
m**2 |
|
floatingse.platform_elem_Ixx |
kg*m**2 |
|
floatingse.platform_elem_Iyy |
kg*m**2 |
|
floatingse.platform_elem_J0 |
kg*m**2 |
|
floatingse.platform_elem_rho |
kg/m**3 |
|
floatingse.platform_elem_E |
Pa |
|
floatingse.platform_elem_G |
Pa |
|
floatingse.platform_elem_sigma_y |
Pa |
|
floatingse.platform_displacement |
m**3 |
|
floatingse.platform_center_of_buoyancy |
m |
|
floatingse.platform_hull_center_of_mass |
m |
|
floatingse.platform_centroid |
m |
|
floatingse.platform_ballast_mass |
kg |
|
floatingse.platform_hull_mass |
kg |
|
floatingse.platform_I_hull |
kg*m**2 |
|
floatingse.platform_cost |
USD |
|
floatingse.platform_Awater |
m**2 |
|
floatingse.platform_Iwater |
m**4 |
|
floatingse.platform_added_mass |
kg |
|
floatingse.platform_variable_capacity |
m**3 |
|
floatingse.platform_elem_memid |
Unavailable |
|
floatingse.system_structural_center_of_mass |
m |
|
floatingse.system_structural_mass |
kg |
|
floatingse.system_center_of_mass |
m |
|
floatingse.system_mass |
kg |
|
floatingse.system_I |
kg*m**2 |
|
floatingse.variable_ballast_mass |
kg |
|
floatingse.variable_center_of_mass |
m |
|
floatingse.variable_I |
kg*m**2 |
|
floatingse.constr_variable_margin |
||
floatingse.member_variable_volume |
m**3 |
|
floatingse.member_variable_height |
||
floatingse.platform_mass |
kg |
|
floatingse.platform_total_center_of_mass |
m |
|
floatingse.platform_I_total |
kg*m**2 |
|
floatingse.line_mass |
kg |
|
floatingse.mooring_mass |
kg |
|
floatingse.mooring_cost |
USD |
|
floatingse.mooring_stiffness |
N/m |
|
floatingse.mooring_neutral_load |
N |
|
floatingse.max_surge_restoring_force |
N |
|
floatingse.operational_heel_restoring_force |
N |
|
floatingse.survival_heel_restoring_force |
N |
|
floatingse.mooring_plot_matrix |
m |
|
floatingse.constr_axial_load |
||
floatingse.constr_mooring_length |
||
floatingse.constr_anchor_vertical |
||
floatingse.constr_anchor_lateral |
||
floatingse.memload0.env.wind.U |
m/s |
|
floatingse.memload0.env.windLoads.windLoads_Px |
N/m |
|
floatingse.memload0.env.windLoads.windLoads_Py |
N/m |
|
floatingse.memload0.env.windLoads.windLoads_Pz |
N/m |
|
floatingse.memload0.env.windLoads.windLoads_qdyn |
N/m**2 |
|
floatingse.memload0.env.windLoads.windLoads_z |
m |
|
floatingse.memload0.env.windLoads.windLoads_beta |
deg |
|
floatingse.memload0.env.wave.U |
m/s |
|
floatingse.memload0.env.wave.W |
m/s |
|
floatingse.memload0.env.wave.V |
m/s |
|
floatingse.memload0.env.wave.A |
m/s**2 |
|
floatingse.memload0.env.wave.p |
N/m**2 |
|
floatingse.memload0.env.wave.phase_speed |
m/s |
|
floatingse.memload0.env.waveLoads.waveLoads_Px |
N/m |
|
floatingse.memload0.env.waveLoads.waveLoads_Py |
N/m |
|
floatingse.memload0.env.waveLoads.waveLoads_Pz |
N/m |
|
floatingse.memload0.env.waveLoads.waveLoads_qdyn |
N/m**2 |
|
floatingse.memload0.env.waveLoads.waveLoads_pt |
N/m**2 |
|
floatingse.memload0.env.waveLoads.waveLoads_z |
m |
|
floatingse.memload0.env.waveLoads.waveLoads_beta |
deg |
|
floatingse.memload0.env.Px |
N/m |
|
floatingse.memload0.env.Py |
N/m |
|
floatingse.memload0.env.Pz |
N/m |
|
floatingse.memload0.env.qdyn |
N/m**2 |
|
floatingse.memload0.g2e.Px |
N/m |
|
floatingse.memload0.g2e.Py |
N/m |
|
floatingse.memload0.g2e.Pz |
N/m |
|
floatingse.memload0.g2e.qdyn |
Pa |
|
floatingse.memload0.Px |
N/m |
|
floatingse.memload0.Py |
N/m |
|
floatingse.memload0.Pz |
N/m |
|
floatingse.memload0.qdyn |
Pa |
|
floatingse.memload1.env.wind.U |
m/s |
|
floatingse.memload1.env.windLoads.windLoads_Px |
N/m |
|
floatingse.memload1.env.windLoads.windLoads_Py |
N/m |
|
floatingse.memload1.env.windLoads.windLoads_Pz |
N/m |
|
floatingse.memload1.env.windLoads.windLoads_qdyn |
N/m**2 |
|
floatingse.memload1.env.windLoads.windLoads_z |
m |
|
floatingse.memload1.env.windLoads.windLoads_beta |
deg |
|
floatingse.memload1.env.wave.U |
m/s |
|
floatingse.memload1.env.wave.W |
m/s |
|
floatingse.memload1.env.wave.V |
m/s |
|
floatingse.memload1.env.wave.A |
m/s**2 |
|
floatingse.memload1.env.wave.p |
N/m**2 |
|
floatingse.memload1.env.wave.phase_speed |
m/s |
|
floatingse.memload1.env.waveLoads.waveLoads_Px |
N/m |
|
floatingse.memload1.env.waveLoads.waveLoads_Py |
N/m |
|
floatingse.memload1.env.waveLoads.waveLoads_Pz |
N/m |
|
floatingse.memload1.env.waveLoads.waveLoads_qdyn |
N/m**2 |
|
floatingse.memload1.env.waveLoads.waveLoads_pt |
N/m**2 |
|
floatingse.memload1.env.waveLoads.waveLoads_z |
m |
|
floatingse.memload1.env.waveLoads.waveLoads_beta |
deg |
|
floatingse.memload1.env.Px |
N/m |
|
floatingse.memload1.env.Py |
N/m |
|
floatingse.memload1.env.Pz |
N/m |
|
floatingse.memload1.env.qdyn |
N/m**2 |
|
floatingse.memload1.g2e.Px |
N/m |
|
floatingse.memload1.g2e.Py |
N/m |
|
floatingse.memload1.g2e.Pz |
N/m |
|
floatingse.memload1.g2e.qdyn |
Pa |
|
floatingse.memload1.Px |
N/m |
|
floatingse.memload1.Py |
N/m |
|
floatingse.memload1.Pz |
N/m |
|
floatingse.memload1.qdyn |
Pa |
|
floatingse.memload2.env.wind.U |
m/s |
|
floatingse.memload2.env.windLoads.windLoads_Px |
N/m |
|
floatingse.memload2.env.windLoads.windLoads_Py |
N/m |
|
floatingse.memload2.env.windLoads.windLoads_Pz |
N/m |
|
floatingse.memload2.env.windLoads.windLoads_qdyn |
N/m**2 |
|
floatingse.memload2.env.windLoads.windLoads_z |
m |
|
floatingse.memload2.env.windLoads.windLoads_beta |
deg |
|
floatingse.memload2.env.wave.U |
m/s |
|
floatingse.memload2.env.wave.W |
m/s |
|
floatingse.memload2.env.wave.V |
m/s |
|
floatingse.memload2.env.wave.A |
m/s**2 |
|
floatingse.memload2.env.wave.p |
N/m**2 |
|
floatingse.memload2.env.wave.phase_speed |
m/s |
|
floatingse.memload2.env.waveLoads.waveLoads_Px |
N/m |
|
floatingse.memload2.env.waveLoads.waveLoads_Py |
N/m |
|
floatingse.memload2.env.waveLoads.waveLoads_Pz |
N/m |
|
floatingse.memload2.env.waveLoads.waveLoads_qdyn |
N/m**2 |
|
floatingse.memload2.env.waveLoads.waveLoads_pt |
N/m**2 |
|
floatingse.memload2.env.waveLoads.waveLoads_z |
m |
|
floatingse.memload2.env.waveLoads.waveLoads_beta |
deg |
|
floatingse.memload2.env.Px |
N/m |
|
floatingse.memload2.env.Py |
N/m |
|
floatingse.memload2.env.Pz |
N/m |
|
floatingse.memload2.env.qdyn |
N/m**2 |
|
floatingse.memload2.g2e.Px |
N/m |
|
floatingse.memload2.g2e.Py |
N/m |
|
floatingse.memload2.g2e.Pz |
N/m |
|
floatingse.memload2.g2e.qdyn |
Pa |
|
floatingse.memload2.Px |
N/m |
|
floatingse.memload2.Py |
N/m |
|
floatingse.memload2.Pz |
N/m |
|
floatingse.memload2.qdyn |
Pa |
|
floatingse.memload3.env.wind.U |
m/s |
|
floatingse.memload3.env.windLoads.windLoads_Px |
N/m |
|
floatingse.memload3.env.windLoads.windLoads_Py |
N/m |
|
floatingse.memload3.env.windLoads.windLoads_Pz |
N/m |
|
floatingse.memload3.env.windLoads.windLoads_qdyn |
N/m**2 |
|
floatingse.memload3.env.windLoads.windLoads_z |
m |
|
floatingse.memload3.env.windLoads.windLoads_beta |
deg |
|
floatingse.memload3.env.wave.U |
m/s |
|
floatingse.memload3.env.wave.W |
m/s |
|
floatingse.memload3.env.wave.V |
m/s |
|
floatingse.memload3.env.wave.A |
m/s**2 |
|
floatingse.memload3.env.wave.p |
N/m**2 |
|
floatingse.memload3.env.wave.phase_speed |
m/s |
|
floatingse.memload3.env.waveLoads.waveLoads_Px |
N/m |
|
floatingse.memload3.env.waveLoads.waveLoads_Py |
N/m |
|
floatingse.memload3.env.waveLoads.waveLoads_Pz |
N/m |
|
floatingse.memload3.env.waveLoads.waveLoads_qdyn |
N/m**2 |
|
floatingse.memload3.env.waveLoads.waveLoads_pt |
N/m**2 |
|
floatingse.memload3.env.waveLoads.waveLoads_z |
m |
|
floatingse.memload3.env.waveLoads.waveLoads_beta |
deg |
|
floatingse.memload3.env.Px |
N/m |
|
floatingse.memload3.env.Py |
N/m |
|
floatingse.memload3.env.Pz |
N/m |
|
floatingse.memload3.env.qdyn |
N/m**2 |
|
floatingse.memload3.g2e.Px |
N/m |
|
floatingse.memload3.g2e.Py |
N/m |
|
floatingse.memload3.g2e.Pz |
N/m |
|
floatingse.memload3.g2e.qdyn |
Pa |
|
floatingse.memload3.Px |
N/m |
|
floatingse.memload3.Py |
N/m |
|
floatingse.memload3.Pz |
N/m |
|
floatingse.memload3.qdyn |
Pa |
|
floatingse.memload4.env.wind.U |
m/s |
|
floatingse.memload4.env.windLoads.windLoads_Px |
N/m |
|
floatingse.memload4.env.windLoads.windLoads_Py |
N/m |
|
floatingse.memload4.env.windLoads.windLoads_Pz |
N/m |
|
floatingse.memload4.env.windLoads.windLoads_qdyn |
N/m**2 |
|
floatingse.memload4.env.windLoads.windLoads_z |
m |
|
floatingse.memload4.env.windLoads.windLoads_beta |
deg |
|
floatingse.memload4.env.wave.U |
m/s |
|
floatingse.memload4.env.wave.W |
m/s |
|
floatingse.memload4.env.wave.V |
m/s |
|
floatingse.memload4.env.wave.A |
m/s**2 |
|
floatingse.memload4.env.wave.p |
N/m**2 |
|
floatingse.memload4.env.wave.phase_speed |
m/s |
|
floatingse.memload4.env.waveLoads.waveLoads_Px |
N/m |
|
floatingse.memload4.env.waveLoads.waveLoads_Py |
N/m |
|
floatingse.memload4.env.waveLoads.waveLoads_Pz |
N/m |
|
floatingse.memload4.env.waveLoads.waveLoads_qdyn |
N/m**2 |
|
floatingse.memload4.env.waveLoads.waveLoads_pt |
N/m**2 |
|
floatingse.memload4.env.waveLoads.waveLoads_z |
m |
|
floatingse.memload4.env.waveLoads.waveLoads_beta |
deg |
|
floatingse.memload4.env.Px |
N/m |
|
floatingse.memload4.env.Py |
N/m |
|
floatingse.memload4.env.Pz |
N/m |
|
floatingse.memload4.env.qdyn |
N/m**2 |
|
floatingse.memload4.g2e.Px |
N/m |
|
floatingse.memload4.g2e.Py |
N/m |
|
floatingse.memload4.g2e.Pz |
N/m |
|
floatingse.memload4.g2e.qdyn |
Pa |
|
floatingse.memload4.Px |
N/m |
|
floatingse.memload4.Py |
N/m |
|
floatingse.memload4.Pz |
N/m |
|
floatingse.memload4.qdyn |
Pa |
|
floatingse.memload5.env.wind.U |
m/s |
|
floatingse.memload5.env.windLoads.windLoads_Px |
N/m |
|
floatingse.memload5.env.windLoads.windLoads_Py |
N/m |
|
floatingse.memload5.env.windLoads.windLoads_Pz |
N/m |
|
floatingse.memload5.env.windLoads.windLoads_qdyn |
N/m**2 |
|
floatingse.memload5.env.windLoads.windLoads_z |
m |
|
floatingse.memload5.env.windLoads.windLoads_beta |
deg |
|
floatingse.memload5.env.wave.U |
m/s |
|
floatingse.memload5.env.wave.W |
m/s |
|
floatingse.memload5.env.wave.V |
m/s |
|
floatingse.memload5.env.wave.A |
m/s**2 |
|
floatingse.memload5.env.wave.p |
N/m**2 |
|
floatingse.memload5.env.wave.phase_speed |
m/s |
|
floatingse.memload5.env.waveLoads.waveLoads_Px |
N/m |
|
floatingse.memload5.env.waveLoads.waveLoads_Py |
N/m |
|
floatingse.memload5.env.waveLoads.waveLoads_Pz |
N/m |
|
floatingse.memload5.env.waveLoads.waveLoads_qdyn |
N/m**2 |
|
floatingse.memload5.env.waveLoads.waveLoads_pt |
N/m**2 |
|
floatingse.memload5.env.waveLoads.waveLoads_z |
m |
|
floatingse.memload5.env.waveLoads.waveLoads_beta |
deg |
|
floatingse.memload5.env.Px |
N/m |
|
floatingse.memload5.env.Py |
N/m |
|
floatingse.memload5.env.Pz |
N/m |
|
floatingse.memload5.env.qdyn |
N/m**2 |
|
floatingse.memload5.g2e.Px |
N/m |
|
floatingse.memload5.g2e.Py |
N/m |
|
floatingse.memload5.g2e.Pz |
N/m |
|
floatingse.memload5.g2e.qdyn |
Pa |
|
floatingse.memload5.Px |
N/m |
|
floatingse.memload5.Py |
N/m |
|
floatingse.memload5.Pz |
N/m |
|
floatingse.memload5.qdyn |
Pa |
|
floatingse.memload6.env.wind.U |
m/s |
|
floatingse.memload6.env.windLoads.windLoads_Px |
N/m |
|
floatingse.memload6.env.windLoads.windLoads_Py |
N/m |
|
floatingse.memload6.env.windLoads.windLoads_Pz |
N/m |
|
floatingse.memload6.env.windLoads.windLoads_qdyn |
N/m**2 |
|
floatingse.memload6.env.windLoads.windLoads_z |
m |
|
floatingse.memload6.env.windLoads.windLoads_beta |
deg |
|
floatingse.memload6.env.wave.U |
m/s |
|
floatingse.memload6.env.wave.W |
m/s |
|
floatingse.memload6.env.wave.V |
m/s |
|
floatingse.memload6.env.wave.A |
m/s**2 |
|
floatingse.memload6.env.wave.p |
N/m**2 |
|
floatingse.memload6.env.wave.phase_speed |
m/s |
|
floatingse.memload6.env.waveLoads.waveLoads_Px |
N/m |
|
floatingse.memload6.env.waveLoads.waveLoads_Py |
N/m |
|
floatingse.memload6.env.waveLoads.waveLoads_Pz |
N/m |
|
floatingse.memload6.env.waveLoads.waveLoads_qdyn |
N/m**2 |
|
floatingse.memload6.env.waveLoads.waveLoads_pt |
N/m**2 |
|
floatingse.memload6.env.waveLoads.waveLoads_z |
m |
|
floatingse.memload6.env.waveLoads.waveLoads_beta |
deg |
|
floatingse.memload6.env.Px |
N/m |
|
floatingse.memload6.env.Py |
N/m |
|
floatingse.memload6.env.Pz |
N/m |
|
floatingse.memload6.env.qdyn |
N/m**2 |
|
floatingse.memload6.g2e.Px |
N/m |
|
floatingse.memload6.g2e.Py |
N/m |
|
floatingse.memload6.g2e.Pz |
N/m |
|
floatingse.memload6.g2e.qdyn |
Pa |
|
floatingse.memload6.Px |
N/m |
|
floatingse.memload6.Py |
N/m |
|
floatingse.memload6.Pz |
N/m |
|
floatingse.memload6.qdyn |
Pa |
|
floatingse.memload7.env.wind.U |
m/s |
|
floatingse.memload7.env.windLoads.windLoads_Px |
N/m |
|
floatingse.memload7.env.windLoads.windLoads_Py |
N/m |
|
floatingse.memload7.env.windLoads.windLoads_Pz |
N/m |
|
floatingse.memload7.env.windLoads.windLoads_qdyn |
N/m**2 |
|
floatingse.memload7.env.windLoads.windLoads_z |
m |
|
floatingse.memload7.env.windLoads.windLoads_beta |
deg |
|
floatingse.memload7.env.wave.U |
m/s |
|
floatingse.memload7.env.wave.W |
m/s |
|
floatingse.memload7.env.wave.V |
m/s |
|
floatingse.memload7.env.wave.A |
m/s**2 |
|
floatingse.memload7.env.wave.p |
N/m**2 |
|
floatingse.memload7.env.wave.phase_speed |
m/s |
|
floatingse.memload7.env.waveLoads.waveLoads_Px |
N/m |
|
floatingse.memload7.env.waveLoads.waveLoads_Py |
N/m |
|
floatingse.memload7.env.waveLoads.waveLoads_Pz |
N/m |
|
floatingse.memload7.env.waveLoads.waveLoads_qdyn |
N/m**2 |
|
floatingse.memload7.env.waveLoads.waveLoads_pt |
N/m**2 |
|
floatingse.memload7.env.waveLoads.waveLoads_z |
m |
|
floatingse.memload7.env.waveLoads.waveLoads_beta |
deg |
|
floatingse.memload7.env.Px |
N/m |
|
floatingse.memload7.env.Py |
N/m |
|
floatingse.memload7.env.Pz |
N/m |
|
floatingse.memload7.env.qdyn |
N/m**2 |
|
floatingse.memload7.g2e.Px |
N/m |
|
floatingse.memload7.g2e.Py |
N/m |
|
floatingse.memload7.g2e.Pz |
N/m |
|
floatingse.memload7.g2e.qdyn |
Pa |
|
floatingse.memload7.Px |
N/m |
|
floatingse.memload7.Py |
N/m |
|
floatingse.memload7.Pz |
N/m |
|
floatingse.memload7.qdyn |
Pa |
|
floatingse.memload8.env.wind.U |
m/s |
|
floatingse.memload8.env.windLoads.windLoads_Px |
N/m |
|
floatingse.memload8.env.windLoads.windLoads_Py |
N/m |
|
floatingse.memload8.env.windLoads.windLoads_Pz |
N/m |
|
floatingse.memload8.env.windLoads.windLoads_qdyn |
N/m**2 |
|
floatingse.memload8.env.windLoads.windLoads_z |
m |
|
floatingse.memload8.env.windLoads.windLoads_beta |
deg |
|
floatingse.memload8.env.wave.U |
m/s |
|
floatingse.memload8.env.wave.W |
m/s |
|
floatingse.memload8.env.wave.V |
m/s |
|
floatingse.memload8.env.wave.A |
m/s**2 |
|
floatingse.memload8.env.wave.p |
N/m**2 |
|
floatingse.memload8.env.wave.phase_speed |
m/s |
|
floatingse.memload8.env.waveLoads.waveLoads_Px |
N/m |
|
floatingse.memload8.env.waveLoads.waveLoads_Py |
N/m |
|
floatingse.memload8.env.waveLoads.waveLoads_Pz |
N/m |
|
floatingse.memload8.env.waveLoads.waveLoads_qdyn |
N/m**2 |
|
floatingse.memload8.env.waveLoads.waveLoads_pt |
N/m**2 |
|
floatingse.memload8.env.waveLoads.waveLoads_z |
m |
|
floatingse.memload8.env.waveLoads.waveLoads_beta |
deg |
|
floatingse.memload8.env.Px |
N/m |
|
floatingse.memload8.env.Py |
N/m |
|
floatingse.memload8.env.Pz |
N/m |
|
floatingse.memload8.env.qdyn |
N/m**2 |
|
floatingse.memload8.g2e.Px |
N/m |
|
floatingse.memload8.g2e.Py |
N/m |
|
floatingse.memload8.g2e.Pz |
N/m |
|
floatingse.memload8.g2e.qdyn |
Pa |
|
floatingse.memload8.Px |
N/m |
|
floatingse.memload8.Py |
N/m |
|
floatingse.memload8.Pz |
N/m |
|
floatingse.memload8.qdyn |
Pa |
|
floatingse.memload9.env.wind.U |
m/s |
|
floatingse.memload9.env.windLoads.windLoads_Px |
N/m |
|
floatingse.memload9.env.windLoads.windLoads_Py |
N/m |
|
floatingse.memload9.env.windLoads.windLoads_Pz |
N/m |
|
floatingse.memload9.env.windLoads.windLoads_qdyn |
N/m**2 |
|
floatingse.memload9.env.windLoads.windLoads_z |
m |
|
floatingse.memload9.env.windLoads.windLoads_beta |
deg |
|
floatingse.memload9.env.wave.U |
m/s |
|
floatingse.memload9.env.wave.W |
m/s |
|
floatingse.memload9.env.wave.V |
m/s |
|
floatingse.memload9.env.wave.A |
m/s**2 |
|
floatingse.memload9.env.wave.p |
N/m**2 |
|
floatingse.memload9.env.wave.phase_speed |
m/s |
|
floatingse.memload9.env.waveLoads.waveLoads_Px |
N/m |
|
floatingse.memload9.env.waveLoads.waveLoads_Py |
N/m |
|
floatingse.memload9.env.waveLoads.waveLoads_Pz |
N/m |
|
floatingse.memload9.env.waveLoads.waveLoads_qdyn |
N/m**2 |
|
floatingse.memload9.env.waveLoads.waveLoads_pt |
N/m**2 |
|
floatingse.memload9.env.waveLoads.waveLoads_z |
m |
|
floatingse.memload9.env.waveLoads.waveLoads_beta |
deg |
|
floatingse.memload9.env.Px |
N/m |
|
floatingse.memload9.env.Py |
N/m |
|
floatingse.memload9.env.Pz |
N/m |
|
floatingse.memload9.env.qdyn |
N/m**2 |
|
floatingse.memload9.g2e.Px |
N/m |
|
floatingse.memload9.g2e.Py |
N/m |
|
floatingse.memload9.g2e.Pz |
N/m |
|
floatingse.memload9.g2e.qdyn |
Pa |
|
floatingse.memload9.Px |
N/m |
|
floatingse.memload9.Py |
N/m |
|
floatingse.memload9.Pz |
N/m |
|
floatingse.memload9.qdyn |
Pa |
|
floatingse.platform_elem_Px1 |
N/m |
|
floatingse.platform_elem_Px2 |
N/m |
|
floatingse.platform_elem_Py1 |
N/m |
|
floatingse.platform_elem_Py2 |
N/m |
|
floatingse.platform_elem_Pz1 |
N/m |
|
floatingse.platform_elem_Pz2 |
N/m |
|
floatingse.platform_elem_qdyn |
Pa |
|
floatingse.platform_base_F |
N |
|
floatingse.platform_base_M |
N*m |
|
floatingse.platform_Fz |
N |
|
floatingse.platform_Vx |
N |
|
floatingse.platform_Vy |
N |
|
floatingse.platform_Mxx |
N*m |
|
floatingse.platform_Myy |
N*m |
|
floatingse.platform_Mzz |
N*m |
|
floatingse.tower_L |
m |
|
floatingse.f1 |
Hz |
|
floatingse.f2 |
Hz |
|
floatingse.structural_frequencies |
Hz |
|
floatingse.fore_aft_modes |
||
floatingse.side_side_modes |
||
floatingse.torsion_modes |
||
floatingse.fore_aft_freqs |
Hz |
|
floatingse.side_side_freqs |
Hz |
|
floatingse.torsion_freqs |
Hz |
|
floatingse.constr_platform_stress |
||
floatingse.constr_platform_shell_buckling |
||
floatingse.constr_platform_global_buckling |
||
floatingse.constr_freeboard_heel_margin |
||
floatingse.constr_draft_heel_margin |
||
floatingse.constr_fixed_margin |
||
floatingse.constr_fairlead_wave |
||
floatingse.constr_mooring_surge |
||
floatingse.constr_mooring_heel |
||
floatingse.metacentric_height |
m |
|
floatingse.hydrostatic_stiffness |
N/m |
Summary hydrostatic stiffness of structure |
floatingse.rigid_body_periods |
s |
Natural periods of oscillation in 6 DOF |
floatingse.surge_period |
s |
Surge period of oscillation |
floatingse.sway_period |
s |
Sway period of oscillation |
floatingse.heave_period |
s |
Heave period of oscillation |
floatingse.roll_period |
s |
Roll period of oscillation |
floatingse.pitch_period |
s |
Pitch period of oscillation |
floatingse.yaw_period |
s |
Yaw period of oscillation |
Add this for fanciness on the table :class: datatable