| 1 | {{short description|Wikipedia list article}} |
| 2 | {{chemical engineering}} |
| 3 | This is a list of software used to simulate the material and energy balances of chemical process plants. Applications for this include design studies, engineering studies, design audits, debottlenecking studies, control system check-out, [[process simulation]], [[dynamic simulation]], [[Operator Training Simulator|operator training simulators]], pipeline management systems, production management systems, [[Digital twin|digital twins]]. |
| 4 | |
| 5 | {|class="wikitable sortable" style="margin-left: auto; margin-right: auto;" |
| 6 | ! Software !! Developer !! Applications !! Operative system !! License !! URL |
| 7 | |- |
| 8 | |[[Advanced Simulation Library|Advanced Simulation Library (ASL)]] |
| 9 | |Avtech Scientific |
| 10 | |Process data validation and reconciliation, real-time optimization, virtual sensing and predictive control |
| 11 | |Windows, Linux, FreeBSD, Mac |
| 12 | |open-source ([https://github.com/AvtechScientific/ASL/blob/c39215b9f5e7f36d6cdb33dbf6705011b121d95b/LICENSE AGPLv3]) |
| 13 | |[http://asl.org.il] |
| 14 | |- |
| 15 | |[[APMonitor]] |
| 16 | |APMonitor |
| 17 | |MATLAB/Python/Julia-based data reconciliation, real-time optimization, dynamic simulation and nonlinear predictive control |
| 18 | |Windows, Linux |
| 19 | |open-source ([https://github.com/APMonitor/apm_server/blob/fb6cf7393418ee0ceedfe35a2fcd6e8bc8cdb2c6/apm_linux/LICENSE BSD-2-Clause]) |
| 20 | |[http://apmonitor.com/] |
| 21 | |- |
| 22 | |Apros |
| 23 | |[[Fortum]] and [[VTT Technical Research Centre of Finland]] |
| 24 | |Dynamic process simulation for power plants |
| 25 | |Windows |
| 26 | |closed-source |
| 27 | |[http://www.apros.fi/en/] |
| 28 | |- |
| 29 | |[[ASCEND]] |
| 30 | |ASCEND |
| 31 | |Dynamic process simulation, general purpose language |
| 32 | |Windows, BSD, Linux |
| 33 | |open-source ([https://web.archive.org/web/20170623052028/http://svn.ascend4.org/trunk/LICENSE.txt GPLv2]) |
| 34 | |[http://ascend4.org/ASCEND_overview] |
| 35 | |- |
| 36 | |Aspen Custom Modeler (ACM) |
| 37 | |[[Aspen Technology]] |
| 38 | |Dynamic process simulation |
| 39 | |Windows |
| 40 | |closed-source |
| 41 | |[https://www.aspentech.com/en/products/pages/aspen-custom-modeler] |
| 42 | |- |
| 43 | |[[Aspen HYSYS]] |
| 44 | |[[Aspen Technology]] |
| 45 | |Process simulation and optimization |
| 46 | |Windows |
| 47 | |closed-source |
| 48 | |[https://www.aspentech.com/en/products/engineering/aspen-hysys] |
| 49 | |- |
| 50 | |Aspen Plus |
| 51 | |[[Aspen Technology]] |
| 52 | |Process simulation and optimization |
| 53 | |Windows |
| 54 | |closed-source |
| 55 | |[https://www.aspentech.com/products/engineering/aspen-plus] |
| 56 | |- |
| 57 | |ASSETT |
| 58 | |[[Kongsberg Digital]] |
| 59 | |Dynamic process simulation |
| 60 | |Windows |
| 61 | |closed-source |
| 62 | |[https://web.archive.org/web/20140315042115/http://www.kongsberg.com/en/kogt/offerings/software/assett/] |
| 63 | |- |
| 64 | |BatchColumn |
| 65 | |ProSim |
| 66 | |Simulation and Optimization of batch distillation columns |
| 67 | |Windows |
| 68 | |closed-source |
| 69 | |[https://www.prosim.net/en/product/batch-column-simulation-and-optimization-of-batch-distillation-columns/] |
| 70 | |- |
| 71 | |BATCHES |
| 72 | |Batch Process Technologies, Inc. |
| 73 | |Simulation of recipe driven multiproduct and multipurpose batch processes for applications in design, scheduling and supply chain management |
| 74 | |Linux |
| 75 | |closed-source |
| 76 | |[http://bptechs.com] |
| 77 | |- |
| 78 | |BatchReactor |
| 79 | |ProSim |
| 80 | |Simulation of chemical reactors in batch mode |
| 81 | |Windows |
| 82 | |closed-source |
| 83 | |[https://www.prosim.net/en/product/batchreactor-simulation-of-chemical-reactors-in-batch-mode/] |
| 84 | |- |
| 85 | |BioSTEAM |
| 86 | |Yoel Cortes-Pena & BioSTEAM Development Group |
| 87 | |Design, simulation, and costing of biorefineries under uncertainty |
| 88 | |Windows, Mac, Linux |
| 89 | |open-source ([https://github.com/BioSTEAMDevelopmentGroup/biosteam/blob/cca6df548b22c7bbbde10fae68f730f832485355/LICENSE.txt BSD-3-Clause]) |
| 90 | |[https://biosteam.readthedocs.io/en/latest/] |
| 91 | |- |
| 92 | |CADSIM Plus |
| 93 | |Aurel Systems Inc. |
| 94 | |Steady-state and dynamic process simulation |
| 95 | |Windows |
| 96 | |closed-source |
| 97 | |[https://web.archive.org/web/20160305011501/http://www.aurelsystems.com/csplus.htm] |
| 98 | |- |
| 99 | |ChromWorks |
| 100 | |YPSO-FACTO |
| 101 | |Chromatographic process design, simulation & optimization |
| 102 | |Windows |
| 103 | |closed-source |
| 104 | |[http://www.ypso-facto.com] |
| 105 | |- |
| 106 | |CHEMCAD |
| 107 | |Chemstations |
| 108 | |Software suite for process simulation |
| 109 | |Windows |
| 110 | |closed-source |
| 111 | |[http://www.chemstations.com/Products/What_is_CHEMCAD/] |
| 112 | |- |
| 113 | |CHEMPRO |
| 114 | |EPCON |
| 115 | |Process Flow Simulation, Fluid Flow Simulation, & Process Equipment Sizing |
| 116 | |Windows |
| 117 | |closed-source |
| 118 | |[http://www.epcon.com/chempro.html] |
| 119 | |- |
| 120 | |Cycad Process |
| 121 | |CM Solutions |
| 122 | |Process simulation and drawing package for minerals and metallurgical fields |
| 123 | |Windows |
| 124 | |closed-source |
| 125 | |[https://cycadprocess.com/] |
| 126 | |- |
| 127 | |Cycle-Tempo |
| 128 | |Asimptote |
| 129 | |Thermodynamic analysis and optimization of systems for the production of electricity, heat and refrigeration |
| 130 | |Windows |
| 131 | |closed-source |
| 132 | |[http://www.asimptote.nl/software/cycle-tempo/] |
| 133 | |- |
| 134 | |[[COCO simulator]] + ChemSep |
| 135 | |AmsterCHEM |
| 136 | |Steady state process simulation based on [[CAPE-OPEN Interface Standard]] |
| 137 | |Windows |
| 138 | |open-source ([https://www.cocosimulator.org/index_disclaimer.html Coco License 3.4]) |
| 139 | |[http://www.cocosimulator.org/] [http://www.chemsep.org] |
| 140 | |- |
| 141 | |D-SPICE |
| 142 | |[[Kongsberg Digital]] |
| 143 | |Dynamic process simulation |
| 144 | |Windows |
| 145 | |closed-source |
| 146 | |[https://www.kongsberg.com/digital/products/process-simulation/] |
| 147 | |- |
| 148 | |[[Design II for Windows]] |
| 149 | |WinSim Inc. |
| 150 | |Process simulation |
| 151 | |Windows |
| 152 | |closed-source |
| 153 | |[http://www.winsim.com/design.html] |
| 154 | |- |
| 155 | |Distillation expert trainer |
| 156 | |ATR |
| 157 | |Operator training simulator for distillation process |
| 158 | | |
| 159 | |closed-source |
| 160 | |[https://web.archive.org/web/20110716093320/http://smartprocedures.com/distillation_expert] |
| 161 | |- |
| 162 | |[[Dymola]] |
| 163 | |[[Dassault Systèmes]] |
| 164 | |Modelica-based dynamic modelling and simulation software |
| 165 | |Windows, Linux |
| 166 | |closed-source |
| 167 | |[http://www.3ds.com/products-services/catia/capabilities/systems-engineering/modelica-systems-simulation/dymola] |
| 168 | |- |
| 169 | |DynoChem |
| 170 | |Scale-up Systems |
| 171 | |Dynamic process simulation and optimization |
| 172 | |Windows |
| 173 | |closed-source |
| 174 | |[https://www.scale-up.com/Dynochem] |
| 175 | |- |
| 176 | |DYNSIM |
| 177 | |[[Aveva|AVEVA]] |
| 178 | |Dynamic process simulation |
| 179 | |Windows |
| 180 | |closed-source |
| 181 | | |
| 182 | |- |
| 183 | |Dyssol<ref>{{Cite journal|date=2020-07-01|title=Dyssol—An open-source flowsheet simulation framework for particulate materials|url=https://www.sciencedirect.com/science/article/pii/S2352711020302855|journal=SoftwareX|language=en|volume=12|pages=100572|doi=10.1016/j.softx.2020.100572|issn=2352-7110}}</ref> |
| 184 | | |
| 185 | |Dynamic flowsheet simulation of solids processes |
| 186 | |Windows |
| 187 | |open-source ([https://github.com/FlowsheetSimulation/Dyssol-open/blob/53eb7b589ad03eb477d743ee6a90ee10297a9366/LICENSE BSD-3-Clause]) |
| 188 | |[https://github.com/FlowsheetSimulation/Dyssol-open] |
| 189 | |- |
| 190 | |[[DWSIM]] |
| 191 | |Daniel Medeiros, Gustavo León and Gregor Reichert |
| 192 | |Process simulator |
| 193 | |Windows, Linux, macOS, Android, iOS |
| 194 | |open-source ([https://dwsim.inforside.com.br/wiki/index.php?title=Licensing GPLv3]), freemium |
| 195 | |[http://dwsim.inforside.com.br] |
| 196 | |- |
| 197 | |[[EMSO simulator|EMSO]] |
| 198 | |ALSOC Project |
| 199 | |Modelling, simulation and optimisation, steady state and dynamic, equation oriented with open source models |
| 200 | |Windows, Linux |
| 201 | |closed-source (UI), open-source (library)[https://www.enq.ufrgs.br/trac/alsoc/wiki/EMSO] |
| 202 | | |
| 203 | [http://www.enq.ufrgs.br/trac/alsoc] |
| 204 | |- |
| 205 | |EQ-COMP |
| 206 | |Amit Katyal |
| 207 | |Vapor Liquid Equilibrium Software |
| 208 | |Software-as-a-Service |
| 209 | |closed-source |
| 210 | |[http://www.eq-comp.com <nowiki>[59]</nowiki>] |
| 211 | |- |
| 212 | |FlowTran |
| 213 | |FlowTran |
| 214 | |Transient single phase pipeline simulation |
| 215 | | |
| 216 | |closed-source |
| 217 | |[http://www.flowtran.com.au/] |
| 218 | |- |
| 219 | |GAMS |
| 220 | |GAMS |
| 221 | |General Algebraic Modeling System (GAMS) |
| 222 | |Windows, Linux, Mac OS, Solaris |
| 223 | |closed-source |
| 224 | |[https://www.gams.com/] |
| 225 | |- |
| 226 | |gPROMS |
| 227 | |PSE Ltd |
| 228 | |Advanced process simulation and modelling |
| 229 | | |
| 230 | |closed-source |
| 231 | |[http://www.psenterprise.com/] |
| 232 | |- |
| 233 | |[[HSC Sim]] |
| 234 | |[[Outotec|Outotec Oyj]] |
| 235 | |Advanced process simulation and modelling, Flowsheet simulation |
| 236 | |Windows |
| 237 | |closed-source |
| 238 | |[https://web.archive.org/web/20141208063622/http://www.outotec.com/en/Products--services/HSC-Chemistry/Calculation-modules/Sim--process-simulation/] |
| 239 | |- |
| 240 | |HYD-PREDIC |
| 241 | |Amit Katyal |
| 242 | |Multiphase flow assurance and hydrate modelling |
| 243 | |Software-as-a-Service |
| 244 | |closed-source |
| 245 | |[https://www.eq-comp.com/hyd-predic-hydrate-prediction-flow-assurance-software/] |
| 246 | |- |
| 247 | |HYDROFLO |
| 248 | |Tahoe Design Software |
| 249 | |Piping System Design with Steady State Analysis |
| 250 | |Windows |
| 251 | |closed-source |
| 252 | |[http://www.tahoesoft.com/] |
| 253 | |- |
| 254 | |Indiss Plus'''®''' |
| 255 | |[[Corys TESS|Corys]] |
| 256 | |Dynamic process simulator for hydrocarbons, chemicals |
| 257 | |Windows |
| 258 | |closed-source |
| 259 | |[http://www.corys.com/] |
| 260 | |- |
| 261 | |ICAS |
| 262 | |KT-Consortium |
| 263 | |Integrated Computer-Aided System |
| 264 | |Windows |
| 265 | |closed-source |
| 266 | |[https://www.kt.dtu.dk/english/research/kt-consortium/software] |
| 267 | |- |
| 268 | |IDEAS |
| 269 | |Andritz Automation |
| 270 | |Dynamic simulator for pulp, oil sands, potash, and hard rock mining |
| 271 | |Windows |
| 272 | |closed-source |
| 273 | |[http://www.andritzautomation.com/index.php?page=about_us&subpage=ideas] |
| 274 | |- |
| 275 | |iiSE Simulator |
| 276 | |iiSE company |
| 277 | |Equation oriented chemical process simulator and optimizer |
| 278 | |Windows, Linux |
| 279 | |closed-source |
| 280 | |[http://iise.ltd/] |
| 281 | |- |
| 282 | |ITHACA |
| 283 | |Element Process |
| 284 | |General purpose dynamic chemical process simulator |
| 285 | |Windows |
| 286 | |closed-source |
| 287 | |[https://elementprocess.com.au/ithaca/] |
| 288 | |- |
| 289 | |JADE |
| 290 | |[[GSE Systems]] |
| 291 | |Dynamic process simulation |
| 292 | |Windows |
| 293 | |closed-source |
| 294 | |[https://www.gses.com/products/systems/platforms-development-tools/] |
| 295 | |- |
| 296 | |[[JModelica.org]] |
| 297 | |Modelon AB |
| 298 | |Process simulation |
| 299 | |Windows, Linux, macOS |
| 300 | |closed-source<ref name="jmodelica_2020_closed"/> |
| 301 | |[https://jmodelica.org/] |
| 302 | |- |
| 303 | |K-Spice |
| 304 | |[[Kongsberg Digital]] |
| 305 | |Dynamic process simulation |
| 306 | |Windows |
| 307 | |closed-source |
| 308 | |[https://web.archive.org/web/20140315044150/http://www.kongsberg.com/en/kogt/offerings/software/k-spice/] |
| 309 | |- |
| 310 | |LedaFlow |
| 311 | |[[Kongsberg Digital]] |
| 312 | |Transient multiphase pipeline simulation |
| 313 | |Windows |
| 314 | |closed-source |
| 315 | |[https://www.kongsberg.com/ledaflow] |
| 316 | |- |
| 317 | |LIBPF |
| 318 | |simevo |
| 319 | |C++ Library for process flowsheeting |
| 320 | |Linux, Windows, macOS |
| 321 | |closed-source |
| 322 | |[https://libpf.com/sdk/] |
| 323 | |- |
| 324 | |METSIM |
| 325 | |Metsim International |
| 326 | |General-purpose dynamic and steady state process simulation system |
| 327 | |Windows |
| 328 | |closed-source |
| 329 | |[http://www.metsim.com] |
| 330 | |- |
| 331 | |[[Mimic Simulation Software]] |
| 332 | |MYNAH Technologies |
| 333 | |First-principles dynamic simulator built for software acceptance testing and operator training systems |
| 334 | |Windows |
| 335 | |closed-source |
| 336 | |[https://www.mynah.com/product/mimic] |
| 337 | |- |
| 338 | |Mobatec Modeller |
| 339 | |Mobatec |
| 340 | |Advanced Dynamic (Steady-State) Process Modelling Environment |
| 341 | |Windows |
| 342 | |closed-source |
| 343 | |[https://www.mobatec.nl/web/products/mobatec-modeller/] |
| 344 | |- |
| 345 | |NAPCON ProsDS |
| 346 | |Neste Engineering Solutions Oy |
| 347 | |Dynamic process simulation |
| 348 | |Windows |
| 349 | |closed-source |
| 350 | |[https://www.napconsuite.com/product/napcon-simulator/] |
| 351 | |- |
| 352 | |[[OLGA (technology)|OLGA]] |
| 353 | |[[Schlumberger]] |
| 354 | |Transient multiphase pipeline simulation |
| 355 | |Windows |
| 356 | |closed-source |
| 357 | |[https://www.software.slb.com/products/olga] |
| 358 | |- |
| 359 | |[[OLI Analyzer]] |
| 360 | |OLI Systems, Inc. |
| 361 | |Chemical phase equilibrium simulation featuring electrolytes |
| 362 | |Windows |
| 363 | |closed-source |
| 364 | |
| 365 | |[https://www.olisystems.com/] |
| 366 | |- |
| 367 | |Omegaland |
| 368 | |OMEGA Simulation |
| 369 | |Dynamic process simulation |
| 370 | |Windows |
| 371 | |closed-source |
| 372 | |[https://www.omegasim.co.jp/contents_e/product/ol/] |
| 373 | |- |
| 374 | |OptiRamp |
| 375 | |Statistics & Control, Inc. |
| 376 | |Real-time Process Simulation and Optimization, Multi variable Predictive Control |
| 377 | |Windows |
| 378 | |closed-source |
| 379 | |[https://web.archive.org/web/20170919004510/http://www.stctrl.com/] |
| 380 | |- |
| 381 | |[[OpenModelica]] |
| 382 | |Open-Source Modelica Consortium |
| 383 | |General purpose simulation |
| 384 | |Linux, macOS |
| 385 | |open-source ([https://github.com/OpenModelica/OpenModelica/blob/868b628a698d3de84ca2cfda0aba5f577f4ee144/OSMC-License.txt OSMC-PL 1.2]) |
| 386 | |[https://www.openmodelica.org/] |
| 387 | |- |
| 388 | |PD-PLUS |
| 389 | |Deerhaven Technical Software |
| 390 | |Steady-State Modeling of Chemical, Petrochemical, and Refining Processes |
| 391 | |Windows |
| 392 | |closed-source |
| 393 | |[http://www.deerhaventech.com/] |
| 394 | |- |
| 395 | |PIPE-FLO Professional |
| 396 | |[[Engineered Software Inc.]] |
| 397 | |Piping System Simulation and Design |
| 398 | |Windows |
| 399 | |closed-source |
| 400 | |[http://www.eng-software.com] |
| 401 | |- |
| 402 | |PIPEFLO |
| 403 | |Schlumberger |
| 404 | |Steady state multiphase flowline simulation |
| 405 | |Windows |
| 406 | |closed-source |
| 407 | |[https://www.software.slb.com/support/product] |
| 408 | |- |
| 409 | |PIPESIM |
| 410 | |[[Schlumberger]] |
| 411 | |Steady state multiphase flowline simulation |
| 412 | |Windows |
| 413 | |closed-source |
| 414 | |[https://www.software.slb.com/support/product] |
| 415 | |- |
| 416 | |PEL Suite |
| 417 | |PEL Software |
| 418 | |Steady state process simulation |
| 419 | |Windows |
| 420 | |closed-source |
| 421 | |[http://www.pelsoftware.com/products.php] |
| 422 | |- |
| 423 | |Petro-SIM |
| 424 | |[[KBC Advanced Technologies]] |
| 425 | |Dynamic process simulation |
| 426 | |Windows |
| 427 | |closed-source |
| 428 | |[https://www.kbc.global/software/process-simulation-software/] |
| 429 | |- |
| 430 | |PETROX |
| 431 | |[[Petrobras]] |
| 432 | |In-house steady state refining process simulator<ref name="aiche_2013_petrox"/> |
| 433 | |Windows |
| 434 | |closed-source |
| 435 | |N/A |
| 436 | |- |
| 437 | |Power Plant Simulator & Designer |
| 438 | |KED GmbH |
| 439 | |Basic Engineering and Dynamic process simulation for power plants |
| 440 | |Windows |
| 441 | |closed-source |
| 442 | |[http://www.powerplantsimulator.com/] |
| 443 | |- |
| 444 | |Process Studio |
| 445 | |Protomation |
| 446 | |Simulation Suite for Modeling, Engineering & Training |
| 447 | |Windows |
| 448 | |closed-source |
| 449 | |[http://www.protomation.com/] |
| 450 | |- |
| 451 | |Prode Properties |
| 452 | |Prode Software |
| 453 | |Thermodynamic Library, Properties of pure fluids and mixtures, Multi phase Equilibria + process simulation |
| 454 | |Windows |
| 455 | |closed-source |
| 456 | |[https://www.prode.com/en/ppp.htm] |
| 457 | |- |
| 458 | |Prode Process Interface |
| 459 | |Prode Software |
| 460 | |Process simulation, optimization realtime control |
| 461 | |Windows |
| 462 | |closed-source |
| 463 | |[https://www.prode.com/en/opcgashydrocarbon.htm] |
| 464 | |- |
| 465 | |[[ProMax]] |
| 466 | |Bryan Research & Engineering |
| 467 | |Process simulator capable of modeling oil & gas plants, refineries, and many chemical plants |
| 468 | |Windows |
| 469 | |closed-source |
| 470 | |[https://bre.com/ProMax-Main.aspx] |
| 471 | |- |
| 472 | |ProPhyPlus |
| 473 | |ProSim |
| 474 | |Thermodynamic calculation software |
| 475 | |Windows |
| 476 | |closed-source |
| 477 | |[https://www.prosim.net/en/product/prophyplus-thermodynamic-calculations/] |
| 478 | |- |
| 479 | |ProSec |
| 480 | |ProSim |
| 481 | |Simulation of brazed plate fin heat exchangers |
| 482 | |Windows |
| 483 | |closed-source |
| 484 | |[https://www.prosim.net/en/product/prosec-simulation-of-brazed-plate-fin-heat-exchangers/] |
| 485 | |- |
| 486 | |ProSim DAC |
| 487 | |ProSim |
| 488 | |Dynamic adsorption column simulation |
| 489 | |Windows |
| 490 | |closed-source |
| 491 | |[https://www.prosim.net/en/product/prosim-dac-dynamic-adsorption-column-simulation/] |
| 492 | |- |
| 493 | |ProSim HEX |
| 494 | |ProSim |
| 495 | |Heat Exchangers Simulation |
| 496 | |Windows |
| 497 | |closed-source |
| 498 | |[https://www.prosim.net/en/product/prosimhex-heat-exchangers-simulation/] |
| 499 | |- |
| 500 | |ProSimPlus |
| 501 | |ProSim |
| 502 | |Steady-state simulation and optimization of processes |
| 503 | |Windows |
| 504 | |closed-source |
| 505 | |[https://www.prosim.net/en/product/prosimplus-steady-state-simulation-and-optimization-of-processes/] |
| 506 | |- |
| 507 | |ProSimulator |
| 508 | |Sim Infosystems |
| 509 | |Process and Power plant simulation |
| 510 | |Windows |
| 511 | |closed-source |
| 512 | |[http://www.siminfosys.com/] |
| 513 | |- |
| 514 | |[[PRO/II]] |
| 515 | |[[Aveva|AVEVA]] |
| 516 | |Steady state process simulation |
| 517 | |Windows |
| 518 | |closed-source |
| 519 | |[http://software.invensys.com/products/simsci/design/pro-ii] |
| 520 | |- |
| 521 | |[[ROMeo (process optimizer)|ROMeo]] |
| 522 | |[[Aveva|AVEVA]] |
| 523 | |Process optimization |
| 524 | |Windows |
| 525 | |closed-source |
| 526 | |[https://www.aveva.com/en/products/process-optimization/] |
| 527 | |- |
| 528 | |Reaction Lab |
| 529 | |Scale-up Systems |
| 530 | |Chemist-oriented kinetic modeling and reaction optimization |
| 531 | |Windows |
| 532 | |closed-source |
| 533 | |[https://www.scale-up.com/ReactionLab] |
| 534 | |- |
| 535 | |RecoVR |
| 536 | |VRTech |
| 537 | |Industrial wastewater management |
| 538 | |Windows |
| 539 | |closed-source |
| 540 | |[https://web.archive.org/web/20180907005133/http://vrtech.com.br/pt/recovr/] |
| 541 | |- |
| 542 | |REX |
| 543 | |Optience |
| 544 | |Reactor Optimization and Kinetic Estimation |
| 545 | |Windows |
| 546 | |closed-source |
| 547 | |[http://www.optience.com/rex/] |
| 548 | |- |
| 549 | |SimCentral |
| 550 | |[[Aveva|AVEVA]] |
| 551 | |Steady state, Fluid flow and Dynamic process simulator. |
| 552 | |Windows |
| 553 | |closed-source |
| 554 | |[http://software.invensys.com/products/simsci/design/simcentral] |
| 555 | |- |
| 556 | |SimCreate |
| 557 | |TSC Simulation |
| 558 | |Real time, first principle and generic operator training simulations, plant specific emulations and OPC for live plant connections. |
| 559 | |Windows |
| 560 | |closed-source |
| 561 | |[http://www.tscsimulation.co.uk] |
| 562 | |- |
| 563 | |Simulis Thermodynamics |
| 564 | |ProSim |
| 565 | |Mixture properties and fluid phase equilibria calculations |
| 566 | |Windows |
| 567 | |closed-source |
| 568 | |[https://www.prosim.net/en/product/simulis-thermodynamics-mixture-properties-and-fluid-phase-equilibria-calculations/] |
| 569 | |- |
| 570 | |SolidSim (Now in Aspen Plus<ref name="mergr_20120209_prosim"/><ref name="colan_2020_solidsim"/>) |
| 571 | |SolidSim Engineering GmbH |
| 572 | |Flowsheet simulation of solids processes |
| 573 | |Windows |
| 574 | |closed-source |
| 575 | |[https://www.aspentech.com/en/resources/press-releases/aspentech-announces-availability-of-aspenonert-v8-process-optimization-software15032387367/] |
| 576 | |- |
| 577 | |SPEEDUP |
| 578 | |[[Aspen Technology]] |
| 579 | |Dynamic process simulation |
| 580 | |Unix, Windows |
| 581 | |closed-source |
| 582 | |[https://web.archive.org/web/19970126132506/http://www.aspentech.com/products/software/speedup/speedup.html] |
| 583 | |- |
| 584 | |SuperPro Designer |
| 585 | |[[Intelligen]] |
| 586 | |Batch and continuous process simulation. |
| 587 | |Windows |
| 588 | |closed-source |
| 589 | |[https://www.intelligen.com/products/superpro-overview/] |
| 590 | |- |
| 591 | |[[SysCAD]] |
| 592 | |KWA Kenwalt Australia |
| 593 | |Steady-state and dynamic process simulation |
| 594 | |Windows |
| 595 | |closed-source |
| 596 | |[http://www.syscad.net/] |
| 597 | |- |
| 598 | |UniSim Design Suite |
| 599 | |[[Honeywell]] |
| 600 | |Process simulation and optimization |
| 601 | |Windows |
| 602 | |closed-source |
| 603 | |[https://www.honeywellprocess.com/en-US/explore/products/advanced-applications/unisim/Pages/unisim-design-suite.aspx] |
| 604 | |- |
| 605 | |UniSim Competency Suite |
| 606 | |[[Honeywell]] |
| 607 | |Opertator Competency Management and Training |
| 608 | |Windows |
| 609 | |closed-source |
| 610 | |[https://www.honeywellprocess.com/en-US/explore/products/advanced-applications/unisim/unisim-competency-suite/Pages/default.aspx] |
| 611 | |- |
| 612 | |Usim Pac |
| 613 | |Caspeo |
| 614 | |Steady-state simulator for the mineral industry, biorefineries and waste treatment |
| 615 | |Windows |
| 616 | |closed-source |
| 617 | |[http://www.caspeo.net/usimpac] |
| 618 | |- |
| 619 | |Virtuoso |
| 620 | |[[John Wood Group|Wood PLC]] |
| 621 | |Multiphase dynamic process simulator for oil & gas production |
| 622 | |Windows |
| 623 | |closed-source |
| 624 | |[https://www.woodgroup.com/what-we-do/view-by-products-and-services/digital-solutions/virtuoso] |
| 625 | |- |
| 626 | |VMG Symmetry |
| 627 | |[[Schlumberger]] |
| 628 | |Steady state simulation, dynamic process simulation, transient multiphase flowline simulation |
| 629 | |Windows |
| 630 | |closed-source |
| 631 | |[http://virtualmaterials.com/VMGSim] |
| 632 | |- |
| 633 | |[[Wolfram SystemModeler]] |
| 634 | |[[Wolfram Research]] |
| 635 | |[[Modelica]]-based Dynamic multidomain modelling (mechanical, electrical, chemical) |
| 636 | |Windows, Mac, Linux |
| 637 | |closed-source |
| 638 | |[http://www.wolfram.com/system-modeler] |
| 639 | |} |
| 640 | |
| 641 | == See also == |
| 642 | * [[Chemical engineering]] |
| 643 | * [[Process simulation]] |
| 644 | * [[Process engineering]] |
| 645 | |
| 646 | == References == |
| 647 | {{reflist|refs= |
| 648 | |
| 649 | <ref name="jmodelica_2020_closed">{{cite web |
| 650 | |title = JModelica Closed Source Announcement |
| 651 | |url = https://jmodelica.org/ |
| 652 | |archive-url = https://web.archive.org/web/20200213102643/https://jmodelica.org/ |
| 653 | |url-status = dead |
| 654 | |archive-date = 13 Feb 2020 |
| 655 | |access-date = 13 Feb 2020 |
| 656 | }}</ref> |
| 657 | |
| 658 | <ref name="aiche_2013_petrox">{{cite conference |
| 659 | |url = https://aiche.confex.com/aiche/s13/webprogram/Paper294028.html |
| 660 | |title = Petrobras in-House Process Simulator As a Strategic Advantage |
| 661 | |last1 = Barbosa |
| 662 | |first1 = Renato A. |
| 663 | |date = 1 May 2013 |
| 664 | |publisher = [[American Institute of Chemical Engineers|AIChE]] |
| 665 | |conference = 13 AIChE Spring Meeting, San Antonio, TX |
| 666 | |id = 294028 |
| 667 | }}</ref> |
| 668 | |
| 669 | <ref name="mergr_20120209_prosim">{{Cite web |
| 670 | |title = SolidSim Engineering was acquired by Aspen Technology on February 9, 2012 |
| 671 | |url = https://mergr.com/solidsim-engineering-acquired-by-aspen-technology |
| 672 | |access-date = 24 Dec 2020 |
| 673 | |website = mergr.com |
| 674 | |archive-url = https://web.archive.org/web/20201224230635/https://mergr.com/solidsim-engineering-acquired-by-aspen-technology |
| 675 | |archive-date = 24 Dec 2020 |
| 676 | }}</ref> |
| 677 | |
| 678 | <ref name="colan_2020_solidsim">{{cite web |
| 679 | |title = Solidsim |
| 680 | |url = https://www.colan.org/experiences-projects/solidsim/ |
| 681 | |access-date = 24 Dec 2020 |
| 682 | |archive-url = https://web.archive.org/web/20201029221551/https://www.colan.org/experiences-projects/solidsim/ |
| 683 | |archive-date = 29 Oct 2020 |
| 684 | |quote = SolidSim Engineering was absorbed by Aspen Technology Inc. with the unit operations of SolidSim made available in Aspen Plus. |
| 685 | }}</ref> |
| 686 | |
| 687 | }} |
| 688 | * Seader, J.D., Seider, W.D. and Pauls, A.C.: Flowtran Simulation – An Introduction, 2nd Edition, CACHE (1977). |
| 689 | * Douglas, J.M.: Conceptual Design of Chemical Processes, McGraw-Hill, NY, USA (1988). |
| 690 | * Smith, R., Chemical process Design and Integration, Wiley, Chichester, UK (2005). |
| 691 | * Seider, W.D., Seader, J.D., Lewin, D.R. and Widagdo, S. Product and Process Design Principles: Synthesis, Analysis and Design, 3rd Ed., Wiley, Hoboken, NJ, USA (2015) |
| 692 | |
| 693 | {{DEFAULTSORT:List Of Chemical Process Simulators}} |
| 694 | [[Category:Chemical engineering software]] |
| 695 | [[Category:Lists of software|Chemical Process Simulators]] |