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test_cases:six [2014/05/21 10:43] grenier |
test_cases:six [2020/06/30 16:16] (current) grenier |
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- | **Case | + | **Case |
The full coupled system is resolved. | The full coupled system is resolved. | ||
+ | The difference with Case TH1 is that a cold boundary condition is imposed that challenges the effect of water heat advection. Depending on the intensity of the flow, the initial talik system opens or closes. | ||
- | {{ equations.jpg?300 }} | + | Initial conditions are provided below (boolean temperature zones, +5°C in the middle, the talik, and -5°C in the semi-circular geometries to the side). Heat boundary conditions are imposed upstream (left) temperature (+5°C), downstream conductive component no-flow (exit by advection only), imposed negative temperatures (-5°C) on lateral sides. |
+ | {{ cas2.jpg? | ||
- | The difference with Case TH1 is that an imposed cold boundary | + | Water boundary |
- | Initial conditions are provided below (boolean temperature zones, +5°C in the middle, the talik, and -5°C in the semi-circular geometries to the side). Heat boundary conditions are imposed upstream (left) temperature (+5°C), downstream conductive component no-flow (exit by advection only), imposed negative temperatures (-5°C) on lateral sides. Water boundary conditions are the same as for TH1, basically uniform flow conditions. | + | {{ conditions_hydro.jpg?300 }} |
- | {{: | ||
+ | **The whole information about Benchmark Case TH3 (including parameter spread sheet, performance measures) is available as | ||
- | //Parameter spread sheet and performance measures// | + | **The results are now published |
- | ... |