[10186] | 1 | ====================== |
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| 2 | Explore the test cases |
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| 3 | ====================== |
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| 4 | |
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[10201] | 5 | .. include:: .global.rst |
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[10186] | 6 | |
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[10201] | 7 | ``CANAL`` |
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| 8 | | [Illustration here ?] |
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| 9 | | East-west periodic canal of variable size with several initial states and associated geostrophic currents |
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| 10 | (zonal jets or vortex). |
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[10186] | 11 | |
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[10201] | 12 | ``ICEDYN`` |
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| 13 | | [Illustration here ?] |
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| 14 | | East-west + north-south periodic channel inlcuding an AGRIF zoom (1:3) in the middle of the basin to test how |
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| 15 | an ice patch is advected through it but one can also test the advection schemes |
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| 16 | (Prather and Ultimate-Macho) by removing the ``key_agrif`` in the CPP keys. |
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| 17 | |
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| 18 | ``ISOMIP`` |
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| 19 | | [Illustration here ?] |
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| 20 | | Simple box configuration with an iceshelf with simple geometry on top to evaluate the impact of |
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| 21 | various schemes and new development with iceshelf cavities. |
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| 22 | | `test cavities <http://staff.acecrc.org.au/~bkgalton/ISOMIP/test_cavities.pdf>`_ |
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| 23 | |
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| 24 | ``LOCK_EXCHANGE`` |
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| 25 | | [Illustration here ?] |
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| 26 | | Classical fluid dynamics experiment that has been adapted for testing advection schemes in |
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| 27 | ocean circulation models. |
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| 28 | | This experiment can in particular illustrate the impact of different choices of numerical schemes and/or |
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| 29 | subgrid closures on spurious interior mixing. |
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| 30 | | :cite:`epic31172,burchard2002getm,ILICAK201237` |
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| 31 | |
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| 32 | ``OVERFLOW`` |
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| 33 | | [Illustration here ?] |
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| 34 | | Adapted from the non-rotating overflow configuration, |
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| 35 | it illustrates the impact of different choices of numerical schemes and/or subgrid closures on |
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| 36 | spurious interior mixing close to bottom topography. |
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| 37 | | :cite:`epic31172,ILICAK201237` |
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| 38 | |
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| 39 | ``VORTEX`` |
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| 40 | .. figure:: _static/VORTEX_anim.gif |
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| 41 | |
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| 42 | Vortex smoothly propagates out of two 1:2 successive nested grids (sea level anomaly in meters) |
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| 43 | |
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| 44 | | Illustrates the propagation of an anticyclonic eddy over a Beta plan and flat bottom. |
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| 45 | | It is implemented here with an online refined subdomain (1:3) out of which the vortex propagates and |
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| 46 | serves as a benchmark to diagnose nesting errors. |
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| 47 | | :cite:`DEBREU20121,PENVEN2006157,SPALL1991205` |
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| 48 | |
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| 49 | ``WAD`` |
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| 50 | | [Illustration here ?] |
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| 51 | | Set of simple closed basin geometries for testing the wetting and drying capabilities. |
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| 52 | Examples range from a closed channel with EW linear bottom slope to a parabolic EW channel with |
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| 53 | a Gaussian ridge. |
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| 54 | |
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| 55 | References |
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| 56 | ========== |
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| 57 | |
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| 58 | .. bibliography:: test_cases.bib |
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| 59 | :all: |
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| 60 | :style: unsrt |
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