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Can be prefixed with a minus sign to set negative direction Cylinder primitive properties Property name In addition to the properties specified in Common primitive properties, the cylinder primitive supports the properties specified in Cylinder primitive properties.
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In addition to the properties specified in Common primitive properties, the box primitive supports the properties specified in Box primitive properties. The value is derived from primitive specific properties, and is not editable. Rotation in degrees for each axis (x, y, z). 0 is closed, 1 is openĬan store arbitrary key-value data. The hue must be in the range 0-360, saturation in the range 0-255 and the alpha between 0-1.Īrea porosity as a vector and volume porosity as a float.
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See Drape direction for more information.ĭefined by a hue, saturation and value (HSV) vector and a alpha value. When DEFAULT is selected the primitive will inherit the material from the database object it belongs to when not connected to a database the primitive will receive the material from the first parent group that has a material specified if no parent group has a material specified the object will not receive any material. When NONE is selected the primitive will not receive any material regardless of what is specified on the database object level. Will override anything set on the database object level. If name is set to "Light" the primitive is interpreted as a light - see Light for more information. They all share a number of basic properties as seen in Common primitive properties.Ĭommon primitive properties Property name The following primitive types are supported by FLACS-CFD: The section about the object window and primitive list. See also The section about the visualisation and FLACS-CFD model when importing geometry using geo2flacs. FGC (Flacs Geometry Calculator) has beta support for using the visualisation model when calculating porosities, but this should not be used in production. The porosity calculators available in FLACS-CFD, FGC (Flacs Geometry Calculator) and Porcalc, both use the FLACS-CFD model when calculating the porosities. For mere visualisation purposes, it is also possible to have geometry in the visualisation model that has no FLACS-CFD representation, for example geometry to show an escape route.
#CONTOUR SHUTTLE HELPER STARTUP SIMULATOR#
This allows you to have more advanced and visually pleasing geometry for presentation purposes, while insuring that the model used by the simulator only consists of simple geometric shapes that have been extensively validated. In the same example, the cylinder has an empty FLACS-CFD model and will therefore not exist in the FLACS-CFD model. An example of this can be seen in the figure above the box will represent itself in the FLACS-CFD model. These primitives will represent themselves in the FLACS-CFD model unless the FLACS-CFD model have been removed or replaced.
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The FLACS-CFD model can contain the following primitive types: boxes, cylinders, ellipsoids, CP8s and GTCs. not the FLACS-CFD model, is commonly referred to as the visualisation or CAD model. Primitives can have a separate representation known as the FLACS-CFD model, as illustrated by the stippled boxes in the figure. Operations are represented by circles, and primitives are represented by boxes. When working with geometry in the Object window you will always see the geometry as a list of nodes (a node is an operation or primitive), this means that altough the underlying representation is a binary tree, you will never see it as such.Īn example binary tree can be seen in the figure above. The binary tree can exist as an object that is part of a geometry database, or as a standalone geometry file. Geometry is represented as a binary tree, with union and left difference operations between primitives and operations. This section provides a general overview of the functionality in CASD, starting with an overview of how geometry is represented in FLACS-CFD.
#CONTOUR SHUTTLE HELPER STARTUP MANUAL#
This manual describes CASD 8, but the general functionality is in principle the same for earlier versions. This comprises the: geometry model, computational grid, porosities, and scenario description. The preprocessor CASD for the CFD simulator FLACS-CFD is used to prepare the input data, or job data, that defines a FLACS-CFD simulation. CASD is an acronym for Computer Aided Scenario Design.