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Examples of the General Projection Operator


TheGeneral Projectionoperator integrates along curves defined via expressions. Most typically, it is used to integrate along one Cartesian direction. Examples of these integrations are presented here.

Cartesian Integration

Consider a cubic domain, aligned with the global Cartesian coordinate system, within which a variable is defined. An isosurface of this variable is plotted in the image below, showing the volume within which it is less than zero. It is desired to take the integral of this volume along lines parallel to thex-,y-, andzdirections and map the result onto theyz-,xz-, andxy-planes, respectively.

An image of a model domain, shown as a gray cube, with a blue sphere on the inside, visualizing an isosurface. An image of a model domain, shown as a gray cube, with a blue sphere on the inside, visualizing an isosurface.

Isosurface of a field defined within a domain.

To take these three integrals, three different General Projectionoperators are used. The Source Mapand Destination Mapfor each determine the direction of integration. The x- and y-expressions for the Destination Mapare the plane that will be projected onto and should match the x- and y-expressions of the Source Map. The z-expression of the Source Mapis the dimension being integrated over, the direction normal to the plane. An example is shown in the screenshot below.

A screenshot of the Settings window for the General Projection operator, with the Source Selection, Source Map, and Destination Map sections expanded. A screenshot of the Settings window for the General Projection operator, with the Source Selection, Source Map, and Destination Map sections expanded.

Screenshot showing the settings of theGeneral Projection operator that integrates along thex- direction.


The results of this operator are available everywhere within the domain, although typically they are only plotted at one surface, as illustrated below.

A gray cube, representing a modeling domain, with a blue sphere in the center that has been projected along the three Cartesian axes as transparent blue circles. A gray cube, representing a modeling domain, with a blue sphere in the center that has been projected along the three Cartesian axes as transparent blue circles.

Results of theGeneral Projection operators, integrating the volume of the isosurface along the three Cartesian axes.

General Remarks

The smoothness of these integrals is dependent upon the level of mesh refinement, but refining the mesh increases computational cost. If only integrating along a single direction, use a swept mesh in that direction if possible. This is particularly beneficial if this operator is used to introduce a coupling within a multiphysics model.

One operator can operate upon the result of another, making it possible to integrate over a plane and project the result onto an edge.

When plotting results of this operator, smoothness of the results can be improved via theQuality>Resolutionsetting within thePlotfeatures.


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