Simulation queue
| Job name | Numer of DAEs | tmax (s) | Submitted | Completed | Status |
|---|---|---|---|---|---|
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Typical Gr/LFP 1C discharge simulation
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This simulation was labeled as private. |
50x50 + 30 + 50x50 | 1051 | 12:42:39 13/02/23 | 12:42:46 13/02/23 | Finished |
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Typical Gr/LFP 1C discharge simulation
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This simulation was labeled as private. |
50x50 + 30 + 50x50 | 0 | 12:41:30 13/02/23 | 12:41:40 13/02/23 | Error |
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Typical Gr/LFP 1C discharge simulation
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This simulation was labeled as private. |
50x50 + 30 + 50x50 | 4000 | 12:40:16 13/02/23 | 12:40:23 13/02/23 | Finished |
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Typical Gr/LFP 1C discharge simulation
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This simulation was labeled as private. |
50x50 + 30 + 50x50 | 0 | 12:38:50 13/02/23 | 12:38:57 13/02/23 | Error |
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Typical Gr/LFP 1C discharge simulation
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Graphite Anode (Ecker et al.) + typical LFP Cathode. 1C discharge rate corresponds to 1 A. |
50x50 + 30 + 50x50 | 3680 | 17:37:59 10/02/23 | 17:38:08 10/02/23 | Finished |
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Typical Gr/LFP 1C discharge simulation
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This simulation was labeled as private. |
50x50 + 30 + 50x50 | 4000 | 23:51:48 09/02/23 | 23:51:54 09/02/23 | Finished |
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Typical Gr/LFP 1C discharge simulation thin and high li
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This simulation was labeled as private. |
50x50 + 30 + 50x50 | 4000 | 23:08:03 09/02/23 | 23:08:11 09/02/23 | Finished |
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Typical Gr/LFP 1C discharge simulation low thick and low li
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This simulation was labeled as private. |
50x50 + 30 + 50x50 | 4000 | 23:06:06 09/02/23 | 23:06:13 09/02/23 | Finished |
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Typical Gr/LFP 1C discharge sim thick and high diffusivity
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This simulation was labeled as private. |
50x50 + 30 + 50x50 | 4000 | 22:47:13 09/02/23 | 22:47:20 09/02/23 | Finished |
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Typical Gr/LFP 1C discharge simulation
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This simulation was labeled as private. |
50x50 + 30 + 50x50 | 4000 | 03:08:49 09/02/23 | 03:08:57 09/02/23 | Finished |
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Typical Gr/LFP 1C discharge simulation
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This simulation was labeled as private. |
50x50 + 30 + 50x50 | 3680 | 03:05:32 09/02/23 | 03:05:39 09/02/23 | Finished |
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Typical Gr/LFP 1C discharge simulation
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Graphite Anode (Ecker et al.) + typical LFP Cathode. 1C discharge rate corresponds to 1 A. |
50x50 + 30 + 50x50 | 717 | 16:27:53 07/02/23 | 16:27:59 07/02/23 | Finished |
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Typical Gr/LFP 1C discharge simulation
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Graphite Anode (Ecker et al.) + typical LFP Cathode. 1C discharge rate corresponds to 1 A. |
50x50 + 30 + 50x50 | 3680 | 16:12:54 07/02/23 | 16:13:02 07/02/23 | Finished |
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Gr/NMC single cell (Ecker et al.) 1C discharge
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Ecker, M. et al. Parameterization of a Physico-Chemical Model of a Lithium-Ion Battery: I. Determination of Parameters. J. Electrochem. Soc. 162, A1836–A1848 (2015). Ecker, M., Käbitz, S., Laresgoiti, I. & Sauer, D. U. Parameterization of a Physico-Chemical Model of a Lithium-Ion Battery: II. Model Validation. J. Electrochem. Soc. 162, A1849–A1857 (2015). |
30x30 + 20 + 30x30 | 3795 | 15:52:51 07/02/23 | 15:52:58 07/02/23 | Finished |
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Typical Gr/LFP 1C discharge simulation
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Graphite Anode (Ecker et al.) + typical LFP Cathode. 1C discharge rate corresponds to 1 A. |
50x50 + 30 + 50x50 | 3680 | 14:48:12 07/02/23 | 14:48:20 07/02/23 | Finished |
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Mazumder battery 1C discharge - updated - restrict t_max
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Mazumder model validation: discharge at 1C over 3800s, timestep of 1s from 100% SOC. Fixed U_n AND U_p. Updated k0 (divided by the Faraday constant), surface area A, initial concentration in the electrolyte, input current. Note I use 1/2 of electrode area (since the actual number, 10452 cm^2, does not fit into the input field). I reduce the input current correspondingly (-3A instead of -6A). This will not affect the input current density which is I/A. |
50x50 + 25 + 36x50 | 2000 | 14:58:00 02/02/23 | 14:58:07 02/02/23 | Finished |
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Mazumder battery 1C discharge - updated - restrict t_max
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Mazumder model validation: discharge at 1C over 3800s, timestep of 1s from 100% SOC. Fixed U_n AND U_p. Updated k0 (divided by the Faraday constant), surface area A, initial concentration in the electrolyte, input current. Note I use 1/2 of electrode area (since the actual number, 10452 cm^2, does not fit into the input field). I reduce the input current correspondingly (-3A instead of -6A). This will not affect the input current density which is I/A. |
50x50 + 25 + 36x50 | 3800 | 14:56:46 02/02/23 | 14:57:14 02/02/23 | Finished |
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Mazumder battery 1C discharge - updated - restrict t_max
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Mazumder model validation: discharge at 1C over 3800s, timestep of 1s from 100% SOC. Fixed U_n AND U_p. Updated k0 (divided by the Faraday constant), surface area A, initial concentration in the electrolyte, input current. Note I use 1/2 of electrode area (since the actual number, 10452 cm^2, does not fit into the input field). I reduce the input current correspondingly (-3A instead of -6A). This will not affect the input current density which is I/A. |
50x50 + 25 + 36x50 | 3800 | 14:55:27 02/02/23 | 14:55:51 02/02/23 | Finished |
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Li diffusivity - 10e-6
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This simulation was labeled as private. |
50x50 + 30 + 50x50 | 3683 | 12:19:45 02/02/23 | 12:19:52 02/02/23 | Finished |
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Li diffusivity - 10e-6
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This simulation was labeled as private. |
50x50 + 30 + 50x50 | 3683 | 12:17:27 02/02/23 | 12:17:35 02/02/23 | Finished |
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Li diffusivity - 10e-11
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This simulation was labeled as private. |
50x50 + 30 + 50x50 | 3680 | 12:16:56 02/02/23 | 12:17:02 02/02/23 | Finished |
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Typical Gr/LFP 1C discharge simulation
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Graphite Anode (Ecker et al.) + typical LFP Cathode. 1C discharge rate corresponds to 1 A. |
50x50 + 30 + 50x50 | 3680 | 12:06:15 02/02/23 | 12:06:23 02/02/23 | Finished |