CrunchFlow is a software package for simulating multicomponent multi-dimensional reactive transport in porous media. The code is written entirely in Fortran 90 , which allows for runtime allocation of memory for arrays, thus minimizing the memory requirements while maximizing the number of options which can be selected at runtime. Using an automatic read of a thermodynamic and kinetic database, the code can be used for reactive transport problems of arbitrary complexity and size (i.e., there is no a priori restriction on the number of species or reactions considered)

References in zbMATH (referenced in 21 articles )

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  1. Kyas, Svetlana; Volpatto, Diego; Saar, Martin O.; Leal, Allan M. M.: Accelerated reactive transport simulations in heterogeneous porous media using Reaktoro and Firedrake (2022)
  2. Ahusborde, Etienne; Amaziane, Brahim; Moulay, Mohamed Id: High performance computing of 3D reactive multiphase flow in porous media: application to geological storage of (\mathrmCO_2) (2021)
  3. Al Nazer, Safaa; Jazar, Mustapha; Rosier, Carole: Convergence acceleration of iterative sequences for equilibrium chemistry computations (2021)
  4. Molins, Sergi; Soulaine, Cyprien; Prasianakis, Nikolaos I.; Abbasi, Aida; Poncet, Philippe; Ladd, Anthony J. C.; Starchenko, Vitalii; Roman, Sophie; Trebotich, David; Tchelepi, Hamdi A.; Steefel, Carl I.: Simulation of mineral dissolution at the pore scale with evolving fluid-solid interfaces: review of approaches and benchmark problem set (2021)
  5. Morvillo, Maria; Rizzo, Calogero B.; de Barros, Felipe P. J.: A scalable parallel algorithm for reactive particle tracking (2021)
  6. Müller, Juliane; Park, Jangho; Sahu, Reetik; Varadharajan, Charuleka; Arora, Bhavna; Faybishenko, Boris; Agarwal, Deborah: Surrogate optimization of deep neural networks for groundwater predictions (2021)
  7. Poonoosamy, J.; Wanner, C.; Alt Epping, P.; Águila, J. F.; Samper, J.; Montenegro, L.; Xie, M.; Su, D.; Mayer, K. U.; Mäder, U.; van Loon, L. R.; Kosakowski, G.: Benchmarking of reactive transport codes for 2D simulations with mineral dissolution-precipitation reactions and feedback on transport parameters (2021)
  8. Steefel, Carl I.; Tournassat, Christophe: A model for discrete fracture-clay rock interaction incorporating electrostatic effects on transport (2021)
  9. Su, Danyang; Mayer, K. Ulrich; MacQuarrie, Kerry T. B.: MIN3P-HPC: a high-performance unstructured grid code for subsurface flow and reactive transport simulation (2021)
  10. Tournassat, Christophe; Steefel, Carl I.: Modeling diffusion processes in the presence of a diffuse layer at charged mineral surfaces: a benchmark exercise (2021)
  11. Benisch, Katharina; Wang, Wenqing; Delfs, Jens-Olaf; Bauer, Sebastian: The OGS-Eclipse code for simulation of coupled multiphase flow and geomechanical processes in the subsurface (2020)
  12. Damiani, Leonardo Hax; Kosakowski, Georg; Glaus, Martin A.; Churakov, Sergey V.: A framework for reactive transport modeling using FEniCS-Reaktoro: governing equations and benchmarking results (2020)
  13. Guérillot, Dominique; Bruyelle, Jérémie: Geochemical equilibrium determination using an artificial neural network in compositional reservoir flow simulation (2020)
  14. Lisitsa, Vadim; Bazaikin, Yaroslav; Khachkova, Tatyana: Computational topology-based characterization of pore space changes due to chemical dissolution of rocks (2020)
  15. Zhang, Liwei; Namhata, Argha; Dilmore, Robert; Wang, Bin; Wang, Yan; Gan, Manguang; Li, Xiaochun: Application of arbitrary polynomial chaos (aPC) expansion for global sensitivity analysis of mineral dissolution and precipitation modeling under geologic carbon storage conditions (2020)
  16. Laloy, Eric; Jacques, Diederik: Emulation of CPU-demanding reactive transport models: a comparison of Gaussian processes, polynomial chaos expansion, and deep neural networks (2019)
  17. Georgiou, Katerina; Harte, John; Mesbah, Ali; Riley, William J.: A method of alternating characteristics with application to advection-dominated environmental systems (2018)
  18. Ahusborde, E.; Ossmani, M. El: A sequential approach for numerical simulation of two-phase multicomponent flow with reactive transport in porous media (2017)
  19. Sin, Irina; Lagneau, Vincent; De Windt, Laurent; Corvisier, Jérôme: 2D simulation of natural gas reservoir by two-phase multicomponent reactive flow and transport -- description of a benchmarking exercise (2017)
  20. Beisman, James J.; Maxwell, Reed M.; Navarre-Sitchler, Alexis K.; Steefel, Carl I.; Molins, Sergi: ParCrunchFlow: an efficient, parallel reactive transport simulation tool for physically and chemically heterogeneous saturated subsurface environments (2015)

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