Dualfoil.py: Porous Electrochemistry for Rechargeable Batteries

By Lucas Darby Robinson1, R. Edwin García1

1. Purdue University

Open Source Friendly Graphical User Interface for the classic dualfoil (Newman) model

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Version 0.4 - published on 15 Aug 2016

doi:10.4231/D3KP7TS5M cite this

Open source: license | download

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Usage

World usage

Location of all "Dualfoil.py: Porous Electrochemistry for Rechargeable Batteries" Users Since Its Posting

Cumulative Simulation Users

549

3 35 54 61 68 73 79 87 94 101 114 123 134 159 169 181 190 195 211 217 220 225 236 239 242 260 270 275 280 287 292 314 319 333 341 343 350 365 370 379 393 406 413 419 429 439 449 453 462 483 489 498 508 516 522 536 549 549

Users By Organization Type
Type Users
Unidentified 506 (92.17%)
Educational - University 41 (7.47%)
National Lab 1 (0.18%)
Industry 1 (0.18%)
Users by Country of Residence
Country Users
us UNITED STATES 29 (70.73%)
in INDIA 4 (9.76%)
es SPAIN 2 (4.88%)
ch SWITZERLAND 1 (2.44%)
ir IRAN, ISLAMIC REPUBLIC OF 1 (2.44%)
my MALAYSIA 1 (2.44%)
cn CHINA 1 (2.44%)
it ITALY 1 (2.44%)
ru RUSSIAN FEDERATION 1 (2.44%)

Simulation Runs

5,192

8 407 1578 1596 1620 1656 1724 1764 1830 1886 1940 2046 2091 2206 2257 2426 2472 2498 2581 2628 2636 2678 2734 2757 2822 3162 3425 3442 3477 3504 3528 3697 3712 3770 3906 3966 3991 4066 4114 4147 4192 4271 4362 4446 4493 4574 4646 4665 4686 4821 4958 5002 5040 5083 5100 5154 5192 5192
Overview
Average Total
Wall Clock Time 4.18 hours 502.5 days
CPU time 6.32 minutes 12.68 days
Interaction Time 1.93 hours 231.66 days