1. Bulletin 116

    Introduction: The Theme issue (116, September 2018) provides some examples of recent developments in methodological aspects and validation of large-eddy simulation (LES). The increasing complexity of the simulated problems and the use of LES in an engineering context bring new challenges, which concern numerical methods, physical modeling and validation. As for numerical aspects, the development of highly accurate methods, being at the same time able to deal with complex geometries and robust

  2. The Atomizing Pulsed Jet

    E​RCOFTAC PC France The Atomizing Pulsed Jet Authors: Yash Kulkarni, Cesar Pairetti, Raphael Villiers, Stephane Popinet (Sorbonne Universite and CNRS, UMR 7190, Institut Jean Le Rond d’Alembert, Paris, France) Stephane Zaleski (Sorbonne Universite and CNRS, UMR 7190, Institut Jean Le Rond d’Alembert, Paris, France; Institut Universitaire de France; UMR 7190, Institut Jean Le Rond d’Alembert, France) Thin-sheet rupture in an atomising pulsed liquid jet. Left: Default

  3. Ignition of Iron Particles in a Turbulent Jet with Hot Co-Flow

    E​RCOFTAC PC Germany Ignition of Iron Particles in a Turbulent Jet with Hot Co-Flow A​uthors: Bich-Diep Nguyen, Arne Scholtissek, Christian Hasse ( Technical University of Darmstadt, Simulation of Reactive Thermo-Fluid Systems (STFS), Germany) Christopher Geschwindner, Janik Hebel, Benjamin Böhm, Andreas Dreizler, ( Technical University of Darmstadt, Reactive Flows and Diagnostics (RSM), Germany) Iron particle ignition in a particle-laden turbulent jet injected into a hot co-flow.

  4. Near-the-Wall Analysis of the NASA Wall-Mounted Hump

    E​RCOFTAC PC Iberia, PC Netherlands, PC Italy Near-the-Wall Analysis of the NASA Wall-Mounted Hump A​uthors: Pedro Munoz (Barcelona Supercomputing Center, Spain; Delft University of Technology, The Netherlands) Bernat Font (Delft University of Technology, The Netherlands) Matteo Rosellini, Maria Vittoria Salvetti (University of Pisa, Italy) Oriol Lehmkuhl (Barcelona Supercomputing Center, Spain) The video starts with an overview of the NASA Wall-Mounted Hump geometry, followed

  5. Ignition of Iron Particles in a Turbulent Jet with Hot Co-Flow

    E​RCOFTAC PC Germany Ignition of Iron Particles in a Turbulent Jet with Hot Co-Flow A​uthors: Bich-Diep Nguyen, Arne Scholtissek, Christian Hasse ( Technical University of Darmstadt, Simulation of Reactive Thermo-Fluid Systems (STFS), Germany) Christopher Geschwindner, Janik Hebel, Benjamin Böhm, Andreas Dreizler, ( Technical University of Darmstadt, Reactive Flows and Diagnostics (RSM), Germany) Iron particle ignition in a particle-laden turbulent jet injected into a hot co-flow.

  6. SPHERIC Global SPH Seminars - monthly seminars: 10th December 2020

    SPHERIC Global SPH Seminars - monthly seminars - a brand new online seminar series on SPH organised by SIG40 with an exciting list of talks given by the world-leading experts will start on November 12th and finish in May 2021 ! These seminars are open to everyone and free to attend ! Read more

  7. Near-the-Wall Analysis of the NASA Wall-Mounted Hump

    E​RCOFTAC PC Iberia, PC Netherlands, PC Italy Near-the-Wall Analysis of the NASA Wall-Mounted Hump A​uthors: Pedro Munoz (Barcelona Supercomputing Center, Spain; Delft University of Technology, The Netherlands) Bernat Font (Delft University of Technology, The Netherlands) Matteo Rosellini, Maria Vittoria Salvetti (University of Pisa, Italy) Oriol Lehmkuhl (Barcelona Supercomputing Center, Spain) The video starts with an overview of the NASA Wall-Mounted Hump geometry, followed

  8. Ignition of Iron Particles in a Turbulent Jet with Hot Co-Flow

    E​RCOFTAC PC Germany Ignition of Iron Particles in a Turbulent Jet with Hot Co-Flow A​uthors: Bich-Diep Nguyen, Arne Scholtissek, Christian Hasse ( Technical University of Darmstadt, Simulation of Reactive Thermo-Fluid Systems (STFS), Germany) Christopher Geschwindner, Janik Hebel, Benjamin Böhm, Andreas Dreizler, ( Technical University of Darmstadt, Reactive Flows and Diagnostics (RSM), Germany) Iron particle ignition in a particle-laden turbulent jet injected into a hot co-flow.

  9. Near-the-Wall Analysis of the NASA Wall-Mounted Hump

    E​RCOFTAC PC Iberia, PC Netherlands, PC Italy Near-the-Wall Analysis of the NASA Wall-Mounted Hump A​uthors: Pedro Munoz (Barcelona Supercomputing Center, Spain; Delft University of Technology, The Netherlands) Bernat Font (Delft University of Technology, The Netherlands) Matteo Rosellini, Maria Vittoria Salvetti (University of Pisa, Italy) Oriol Lehmkuhl (Barcelona Supercomputing Center, Spain) The video starts with an overview of the NASA Wall-Mounted Hump geometry, followed

  10. Purchase BPG for single-phase flows for industry

    Purchase ERCOFTAC Best Practice Guidelines: Industrial Computational Fluid Dynamics for Single-Phase Flows ERCOFTAC members should log-in for a free copy. Purchase on this page for industry only. Academic purchasers click here

Page 17 of 20Total results: 196

  1. Bulletin 116

    Introduction: The Theme issue (116, September 2018) provides some examples of recent developments in methodological aspects and validation of large-eddy simulation (LES). The increasing complexity of the simulated problems and the use of LES in an engineering context bring new challenges, which concern numerical methods, physical modeling and validation. As for numerical aspects, the development of highly accurate methods, being at the same time able to deal with complex geometries and robust

  2. The Atomizing Pulsed Jet

    E​RCOFTAC PC France The Atomizing Pulsed Jet Authors: Yash Kulkarni, Cesar Pairetti, Raphael Villiers, Stephane Popinet (Sorbonne Universite and CNRS, UMR 7190, Institut Jean Le Rond d’Alembert, Paris, France) Stephane Zaleski (Sorbonne Universite and CNRS, UMR 7190, Institut Jean Le Rond d’Alembert, Paris, France; Institut Universitaire de France; UMR 7190, Institut Jean Le Rond d’Alembert, France) Thin-sheet rupture in an atomising pulsed liquid jet. Left: Default

  3. Ignition of Iron Particles in a Turbulent Jet with Hot Co-Flow

    E​RCOFTAC PC Germany Ignition of Iron Particles in a Turbulent Jet with Hot Co-Flow A​uthors: Bich-Diep Nguyen, Arne Scholtissek, Christian Hasse ( Technical University of Darmstadt, Simulation of Reactive Thermo-Fluid Systems (STFS), Germany) Christopher Geschwindner, Janik Hebel, Benjamin Böhm, Andreas Dreizler, ( Technical University of Darmstadt, Reactive Flows and Diagnostics (RSM), Germany) Iron particle ignition in a particle-laden turbulent jet injected into a hot co-flow.

  4. Near-the-Wall Analysis of the NASA Wall-Mounted Hump

    E​RCOFTAC PC Iberia, PC Netherlands, PC Italy Near-the-Wall Analysis of the NASA Wall-Mounted Hump A​uthors: Pedro Munoz (Barcelona Supercomputing Center, Spain; Delft University of Technology, The Netherlands) Bernat Font (Delft University of Technology, The Netherlands) Matteo Rosellini, Maria Vittoria Salvetti (University of Pisa, Italy) Oriol Lehmkuhl (Barcelona Supercomputing Center, Spain) The video starts with an overview of the NASA Wall-Mounted Hump geometry, followed

  5. Ignition of Iron Particles in a Turbulent Jet with Hot Co-Flow

    E​RCOFTAC PC Germany Ignition of Iron Particles in a Turbulent Jet with Hot Co-Flow A​uthors: Bich-Diep Nguyen, Arne Scholtissek, Christian Hasse ( Technical University of Darmstadt, Simulation of Reactive Thermo-Fluid Systems (STFS), Germany) Christopher Geschwindner, Janik Hebel, Benjamin Böhm, Andreas Dreizler, ( Technical University of Darmstadt, Reactive Flows and Diagnostics (RSM), Germany) Iron particle ignition in a particle-laden turbulent jet injected into a hot co-flow.

  6. SPHERIC Global SPH Seminars - monthly seminars: 10th December 2020

    SPHERIC Global SPH Seminars - monthly seminars - a brand new online seminar series on SPH organised by SIG40 with an exciting list of talks given by the world-leading experts will start on November 12th and finish in May 2021 ! These seminars are open to everyone and free to attend ! Read more

  7. Near-the-Wall Analysis of the NASA Wall-Mounted Hump

    E​RCOFTAC PC Iberia, PC Netherlands, PC Italy Near-the-Wall Analysis of the NASA Wall-Mounted Hump A​uthors: Pedro Munoz (Barcelona Supercomputing Center, Spain; Delft University of Technology, The Netherlands) Bernat Font (Delft University of Technology, The Netherlands) Matteo Rosellini, Maria Vittoria Salvetti (University of Pisa, Italy) Oriol Lehmkuhl (Barcelona Supercomputing Center, Spain) The video starts with an overview of the NASA Wall-Mounted Hump geometry, followed

  8. Ignition of Iron Particles in a Turbulent Jet with Hot Co-Flow

    E​RCOFTAC PC Germany Ignition of Iron Particles in a Turbulent Jet with Hot Co-Flow A​uthors: Bich-Diep Nguyen, Arne Scholtissek, Christian Hasse ( Technical University of Darmstadt, Simulation of Reactive Thermo-Fluid Systems (STFS), Germany) Christopher Geschwindner, Janik Hebel, Benjamin Böhm, Andreas Dreizler, ( Technical University of Darmstadt, Reactive Flows and Diagnostics (RSM), Germany) Iron particle ignition in a particle-laden turbulent jet injected into a hot co-flow.

  9. Near-the-Wall Analysis of the NASA Wall-Mounted Hump

    E​RCOFTAC PC Iberia, PC Netherlands, PC Italy Near-the-Wall Analysis of the NASA Wall-Mounted Hump A​uthors: Pedro Munoz (Barcelona Supercomputing Center, Spain; Delft University of Technology, The Netherlands) Bernat Font (Delft University of Technology, The Netherlands) Matteo Rosellini, Maria Vittoria Salvetti (University of Pisa, Italy) Oriol Lehmkuhl (Barcelona Supercomputing Center, Spain) The video starts with an overview of the NASA Wall-Mounted Hump geometry, followed

  10. Purchase BPG for single-phase flows for industry

    Purchase ERCOFTAC Best Practice Guidelines: Industrial Computational Fluid Dynamics for Single-Phase Flows ERCOFTAC members should log-in for a free copy. Purchase on this page for industry only. Academic purchasers click here

Page 17 of 20Total results: 196

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