Difference between revisions of "AEM Gourmet Corner"
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The gourmet corner is a place for community contributions of recipes, howtos and examples for analytical and numerical modeling of ground water flow and transport. | The gourmet corner is a place for community contributions of recipes, howtos and examples for analytical and numerical modeling of ground water flow and transport. | ||
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+ | AEM gourmet corner wiki uses a subset of TeX, including some extensions from LaTeX and AMSLaTeX, for mathematical formulae. Thus, only a limited part of the full TeX language is supported. Here is a guide for math syntax [http://meta.wikimedia.org/wiki/Help:Formula]. | ||
Please note that all contributions to Gourmet Corner may be edited, altered, or removed by other contributors, in the spirit of collegiality and peer review. Do not submit copyrighted work with permission. You are encouraged to assign an open source license to your source code [http://www.opensource.org]. | Please note that all contributions to Gourmet Corner may be edited, altered, or removed by other contributors, in the spirit of collegiality and peer review. Do not submit copyrighted work with permission. You are encouraged to assign an open source license to your source code [http://www.opensource.org]. |
Revision as of 14:17, 28 August 2007
The gourmet corner is a place for community contributions of recipes, howtos and examples for analytical and numerical modeling of ground water flow and transport.
AEM gourmet corner wiki uses a subset of TeX, including some extensions from LaTeX and AMSLaTeX, for mathematical formulae. Thus, only a limited part of the full TeX language is supported. Here is a guide for math syntax [1].
Please note that all contributions to Gourmet Corner may be edited, altered, or removed by other contributors, in the spirit of collegiality and peer review. Do not submit copyrighted work with permission. You are encouraged to assign an open source license to your source code [2].
Confidence in contributed code might be enhanced if principles of design by contract are agreed upon for object oriented languages (see wikipedia Design By Contract [3], Python DBC [4], and Design by Contract for Python [5].
Contents
- 1 analytic (Strack classification)
- 1.1 horizontal confined flow
- 1.2 shallow unconfined flow
- 1.3 combined shallow confined and unconfined flow
- 1.4 shallow unconfined flow with rainfall
- 1.5 shallow interface flow
- 1.6 aquifers with vertically varying hydraulic conductivity
- 1.7 shallow flow in aquifers with clay laminae
- 1.8 shallow interface flow in aquifers with impermeable laminae
- 1.9 shallow semiconfined flow
- 1.10 shallow flow in systems of aquifers separated by leaky layers
- 1.11 transient shallow flow
- 1.12 two-dimensional flow in the vertical plane
- 1.13 three-dimensional flow
- 2 analytical (Bruggeman classification)
- 3 howtos
- 4 examples
analytic (Strack classification)
horizontal confined flow
one-dimensional flow
insert text description
<math> \phi = -(\phi_1 - \phi_2 )\frac{x}{L} + \frac{1}{2}(\phi_1 + \phi_2) </math>
insert conceptual model (graphic)
insert code snippets (python, fortran)
insert solution heads (graphic)
radial flow
two-dimensional flow
shallow unconfined flow
one-dimensional flow
two-dimensional flow
combined shallow confined and unconfined flow
one-dimensional flow
radial flow
shallow unconfined flow with rainfall
shallow interface flow
aquifers with vertically varying hydraulic conductivity
shallow flow in aquifers with clay laminae
shallow interface flow in aquifers with impermeable laminae
shallow semiconfined flow
shallow flow in systems of aquifers separated by leaky layers
transient shallow flow
two-dimensional flow in the vertical plane
three-dimensional flow
analytical (Bruggeman classification)
Phreatic groundwater
Exact solutions
One-dimensional horizontal flow
Two-dimensional radial-symmetric horizontal flow
General two-dimensional horizontal flow
Confined groundwater
One-dimensional flow
Two-dimensional radial-symmetric flow
General two-dimensional flow
Three-dimensional spherical flow
Three-dimensional axial-symmetric flow
General three-dimensional flow