- View factor
In
Radiative heat transfer , a view factor is the proportion of all that radiation which leaves surface and strikes surface .In a complex 'scene' there can be any number of different objects, which can be divided in turn into even more surfaces and surface segments.
View factors are also sometimes known as configuration factors, form factors or shape factors.
Summation of view factors
Because all of the radiation leaving a surface is a fixed amount, one can add up all of the view factors "from" a given surface , and they will always add up to one:
For example, consider a case where two blobs, 'A' and 'B' are floating around in a cavity 'C'. All the radiation that leaves surface A must either hit surface B or the cavity surface C, or if the surface A is concave, might again hit A. In terms of fractions, 100% of the radiation leaving surface A is divided up between surfaces A, B, and C, which is equivalent to the expression above.
Confusion often arises when considering the radiation that "arrives" at a "target" surface. In that case there, summation of view factors does not apply, because each 'incoming' view factor is a fraction of the radiation leaving "some other" surface: there is no reason for those fractions to add up to anything at all; in fact they can add up to less than one, or many times one, but this value has no significance.
Self-viewing surfaces
For a
convex surface, no radiation can leave the surface and then hit it later, because radiation travels in straight lines. Hence, for convex surfaces,For concave surfaces, this doesn't apply, and so for concave surfaces
Reciprocity
The reciprocity theorem for view factors allows one to calculate if one already knows . Using the areas of the two surfaces and ,
View factors in a triangle
For a triangle with sides of length , and , the view factor is given by
Hottel's Crossed String Rule
The crossed string rule allows calculation of radiation transfer between opposite sides of a quadrilateral, and furthermore applies in some cases where there is partial obstruction between the objects. For a derivation and further details, see [http://cat.inist.fr/?aModele=afficheN&cpsidt=9207165 this article by G H Derrick] .
See also
A large number of 'standard' view factors can be calculated with the use of tables that are commonly provided in
heat transfer textbooks.* [http://www.me.utexas.edu/~howell/referenc.html list of view factors for specific geometry cases]
*Radiosity , a matrix calculation method for solving radiation transfer between a number of bodies.
* [http://view3d.sourceforge.net/ View3D] , a computer program (FOSS ) for calculating view factors in 2D and 3D.
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