Gradient computation
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The above mentioned gradients are sometimes called '''unlimited gradients''' since the face value obtained from them can exceed the bounding cell values. For this reason, for implementing higher order schemes, it becomes important to restrict them, so as not to introduce over and undershoot of variables. | The above mentioned gradients are sometimes called '''unlimited gradients''' since the face value obtained from them can exceed the bounding cell values. For this reason, for implementing higher order schemes, it becomes important to restrict them, so as not to introduce over and undershoot of variables. | ||
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+ | <i> Return to [[Numerical methods | Numerical Methods]] </i> |
Revision as of 06:18, 3 October 2005
Contents |
Gradient Calculation
From Green-Gauss theorem:
Written in discrete form:
Value at Face
Cell Based
There are many ways of estimating value of at face.
- Weighted interpolation:
- Arithmatic Average:
Node Based
Note
The above mentioned gradients are sometimes called unlimited gradients since the face value obtained from them can exceed the bounding cell values. For this reason, for implementing higher order schemes, it becomes important to restrict them, so as not to introduce over and undershoot of variables.
Return to Numerical Methods