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With about 20 scientific employees and students, the Institute for Reactive Flows of the University of Stuttgart conducts research on the fundamentals of modelling and simulation of turbulent, reacting flows in the areas of multiphase flows (gaseous/liquid and gaseous/solid), chemical reactors and nanoparticle processes. The teaching of IRST covers the fundamentals and advanced topics in reacting flow systems, simulation methods as well as related programming basics.

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11 to 16 of 16 Results

Replication Data for: Iaroslavtceva et al. "A consistent MMC-LES approach for turbulent premixed flames" (2024) Proc. Combust. Inst. Nov 19, 2024 Iaroslavtceva, Nadezhda, 2024, "Replication Data for: Iaroslavtceva et al. "A consistent MMC-LES approach for turbulent premixed flames" (2024) Proc. Combust. Inst.", https://doi.org/10.18419/DARUS-4570, DaRUS, V1 A Consistent MMC-LES Approach for Turbulent Premixed Flames This data set contains case setups to reproduce the simulation results presented in Iaroslavtceva et al. (2024) Proceedings of the Combustion Institute. In this publication, a set of freely propagating turbulent premixed flames with varying equivalence ratios is used to test the performanc...
Source Code: A Chemistry Load Balancing Model for OpenFOAM Jul 31, 2024 - Reactive Flows Gärtner, Jan Wilhelm, 2024, "Source Code: A Chemistry Load Balancing Model for OpenFOAM", https://doi.org/10.18419/DARUS-4121, DaRUS, V1 Efficient simulation tools are crucial for studying complex systems such as reacting flows where computational costs of computing chemical reaction rates can vastly exceed the costs for the integration of the convective and diffusive transport terms. Load imbalance in parallel computing poses a significant challenge for massively parallel reacting...
Reactive Flows(Universität Stuttgart) Jul 31, 2024Simulation Software # Simulation Software for Reactive Flows Contains software projects suitable for the simulation of reactive flow.
Compressible Two-Phase One-Fluid Solver (compressiblePhaseChangeFoam) Mar 11, 2024 - Multiphase Flow Gärtner, Jan Wilhelm, 2024, "Compressible Two-Phase One-Fluid Solver (compressiblePhaseChangeFoam)", https://doi.org/10.18419/DARUS-3886, DaRUS, V1 CompressibePhaseChangeFoam This dataset contains the compressible two-phase, one-fluid solver called compressiblePhaseChangeFoam, developed and maintained by the Institute for Combustion Technology in Stuttgart. Versions This dataset contains the full git repository of the compressiblePhaseChangeFoam solver with the complete development history, st...
Multiphase Flow(Universität Stuttgart) Mar 6, 2024Simulation Software Multiphase Simualtion Software This dataverse contains simulation software for multiphase problems: Flashing flows Coal combustion
Simulation Software(Universität Stuttgart) Mar 6, 2024 Simulation Software of ITV This dataverse contains simulation software developed/maintained by the Institute for Combustion Technology. The dataverse is subdivided into three sub-categories: Simulation of Reactive Systems (Combustion) Particle Simulations Multiphase Simulations

Replication Data for: Iaroslavtceva et al. "A consistent MMC-LES approach for turbulent premixed flames" (2024) Proc. Combust. Inst.

Nov 19, 2024

Iaroslavtceva, Nadezhda, 2024, "Replication Data for: Iaroslavtceva et al. "A consistent MMC-LES approach for turbulent premixed flames" (2024) Proc. Combust. Inst.", https://doi.org/10.18419/DARUS-4570, DaRUS, V1

A Consistent MMC-LES Approach for Turbulent Premixed Flames This data set contains case setups to reproduce the simulation results presented in Iaroslavtceva et al. (2024) Proceedings of the Combustion Institute. In this publication, a set of freely propagating turbulent premixed flames with varying equivalence ratios is used to test the performanc...

Source Code: A Chemistry Load Balancing Model for OpenFOAM

Jul 31, 2024 - Reactive Flows

Gärtner, Jan Wilhelm, 2024, "Source Code: A Chemistry Load Balancing Model for OpenFOAM", https://doi.org/10.18419/DARUS-4121, DaRUS, V1

Efficient simulation tools are crucial for studying complex systems such as reacting flows where computational costs of computing chemical reaction rates can vastly exceed the costs for the integration of the convective and diffusive transport terms. Load imbalance in parallel computing poses a significant challenge for massively parallel reacting...

Reactive Flows(Universität Stuttgart)

Jul 31, 2024Simulation Software

# Simulation Software for Reactive Flows Contains software projects suitable for the simulation of reactive flow.

Compressible Two-Phase One-Fluid Solver (compressiblePhaseChangeFoam)

Mar 11, 2024 - Multiphase Flow

Gärtner, Jan Wilhelm, 2024, "Compressible Two-Phase One-Fluid Solver (compressiblePhaseChangeFoam)", https://doi.org/10.18419/DARUS-3886, DaRUS, V1

CompressibePhaseChangeFoam This dataset contains the compressible two-phase, one-fluid solver called compressiblePhaseChangeFoam, developed and maintained by the Institute for Combustion Technology in Stuttgart. Versions This dataset contains the full git repository of the compressiblePhaseChangeFoam solver with the complete development history, st...

Multiphase Flow(Universität Stuttgart)

Mar 6, 2024Simulation Software

Multiphase Simualtion Software This dataverse contains simulation software for multiphase problems: Flashing flows Coal combustion

Simulation Software(Universität Stuttgart)

Mar 6, 2024

Simulation Software of ITV This dataverse contains simulation software developed/maintained by the Institute for Combustion Technology. The dataverse is subdivided into three sub-categories: Simulation of Reactive Systems (Combustion) Particle Simulations Multiphase Simulations

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