A Brilliant Youtube Channel in Fluid Mech.:
Fluid Mechanics 101
youtube.com/channel/UCcqQi9LT0ETkRoUu8eYaEkg
@openfoam_ir
Fluid Mechanics 101
youtube.com/channel/UCcqQi9LT0ETkRoUu8eYaEkg
@openfoam_ir
YouTube
Fluid Mechanics 101
Fluid Mechanics 101 is a channel dedicated to bringing you up-to-date, scientifically validated discussions in fluid mechanics. Computational and numerical methods are covered extensively, with a focus on modern, commercial and academic codes. At all times…
A Dockerfile that adds swak4Foam and PyFoam to regular OpenFOAM images:
Adds swak4Foam and PyFoam to Standard OpenFOAM docker containers. Maintained by the creator of those two packages.
The sources for these docker containers are on Bitbucket and the containers are on Docker Hub
Currently, the latest supported version is OpenFOAM v1912+ and OpenFOAM 7.0
https://bitbucket.org/bgschaid/swak4foamandpyfoamdockerfile/src/default/
@openfoam_ir
Adds swak4Foam and PyFoam to Standard OpenFOAM docker containers. Maintained by the creator of those two packages.
The sources for these docker containers are on Bitbucket and the containers are on Docker Hub
Currently, the latest supported version is OpenFOAM v1912+ and OpenFOAM 7.0
https://bitbucket.org/bgschaid/swak4foamandpyfoamdockerfile/src/default/
@openfoam_ir
🔻معرفی فصل کتاب Modern Learning in VR/AR توسط دکتر جعفر غضنفریان:
📚 Modern Online Learning Tools Over the Platform of Virtual/Augmented Reality
🖊 By Jafar Ghazanfarian, Ehsan Khavasi, Hamid Yousefi, Mojtaba Amiraslanpour, Saba Teymouri, Reza Bayat
📖 Publisher: IGI Global
https://www.aparat.com/v/yjuSZ
@openfoam_ir
📚 Modern Online Learning Tools Over the Platform of Virtual/Augmented Reality
🖊 By Jafar Ghazanfarian, Ehsan Khavasi, Hamid Yousefi, Mojtaba Amiraslanpour, Saba Teymouri, Reza Bayat
📖 Publisher: IGI Global
https://www.aparat.com/v/yjuSZ
@openfoam_ir
This visualization, from a collaboration between #NASA and #Boeing about airframe noise prediction, shows the simulated air flow field around the nose landing gear of a Boeing 777, representing the complex unsteady flow generated by the gear components. The visualization is q-criterion colored by speed, from slower green to faster red air velocities. A strong vortex appears coming off the edge of the landing gear doors. Simulations run on NASA supercomputers at Ames allow researchers to better understand the changes in flow behavior that contribute to airframe noise.
#turbulence #cfd #engineering #simulation
@openfoam_ir
#turbulence #cfd #engineering #simulation
@openfoam_ir
🎉 OpenFOAM 8.0 is out!
Multiphase: selectable interpolation for interface-capturing, PLIC scheme.
Reacting multiphase: consolidated multiphaseEulerFoam solver and model development.
Transport: new MomentumTransportModels and ThermophysicalTransportModels libraries.
Thermophysical: thermodynamics and equation of state models, data input, refactoring.
Surface Film: huge performance improvements and better surface handling.
Heat transfer: better numerics and case setup, new thermal comfort modelling.
Particle tracking: renamed uncoupled solvers, improved tracking efficiency, injection.
Other models: transient/steady-state solvers, boundary conditions, reactions.
Mesh: improved snappyHexMesh and blockMesh, face centre calculation, cyclic patches.
Function Objects: improved visualization/field, residence time and configuration.
Case Configuration: new configuration/initialisation tools, coded Function1.
https://openfoam.org/version/8/
@openfoam_ir
Multiphase: selectable interpolation for interface-capturing, PLIC scheme.
Reacting multiphase: consolidated multiphaseEulerFoam solver and model development.
Transport: new MomentumTransportModels and ThermophysicalTransportModels libraries.
Thermophysical: thermodynamics and equation of state models, data input, refactoring.
Surface Film: huge performance improvements and better surface handling.
Heat transfer: better numerics and case setup, new thermal comfort modelling.
Particle tracking: renamed uncoupled solvers, improved tracking efficiency, injection.
Other models: transient/steady-state solvers, boundary conditions, reactions.
Mesh: improved snappyHexMesh and blockMesh, face centre calculation, cyclic patches.
Function Objects: improved visualization/field, residence time and configuration.
Case Configuration: new configuration/initialisation tools, coded Function1.
https://openfoam.org/version/8/
@openfoam_ir
🔻preCICE🔻
https://github.com/precice/precice
🔹preCICE stands for Precise Code Interaction Coupling Environment. Its main component is a library that can be used by simulation programs to be coupled together in a partitioned way, enabling multi-physics simulations, such as fluid-structure interaction.
@openfoam_ir
https://github.com/precice/precice
🔹preCICE stands for Precise Code Interaction Coupling Environment. Its main component is a library that can be used by simulation programs to be coupled together in a partitioned way, enabling multi-physics simulations, such as fluid-structure interaction.
@openfoam_ir
The #OpenFOAM Journal is an initiative from the OpenFOAM Governance, promoted by the Steering Committee members (OpenCFD Limited, Audi, ESI, FMGlobal, GM, Totalsim, TU Darmstadt, VW and Wikki), is devised and maintained by the Documentations Technical Committee and supported by all the remaining Technical Committees: HPC, Marine, Meshing, Multiphase, Nuclear, Numerics, Optimisation and Turbulence.
The OpenFOAM Journal aims to publish works related to OpenFOAM, with focus on the benefit for the OpenFOAM Community, and will be free to publish and open-access. Each publication will have an associated discussion forum, to increase the interaction between the readers and the authors, and the overall impact of the contributions. Moreover, authors are encouraged to provide supplementary information that will allow the #reproducibility of the published information!
The OpenFOAM Journal will be launched during October 2020. If you want to get all the news about the journal, please register at https://lnkd.in/dn2V8-d
The OpenFOAM Journal aims to publish works related to OpenFOAM, with focus on the benefit for the OpenFOAM Community, and will be free to publish and open-access. Each publication will have an associated discussion forum, to increase the interaction between the readers and the authors, and the overall impact of the contributions. Moreover, authors are encouraged to provide supplementary information that will allow the #reproducibility of the published information!
The OpenFOAM Journal will be launched during October 2020. If you want to get all the news about the journal, please register at https://lnkd.in/dn2V8-d
🔻 OpenFOAM Journal is ready to receive publications
https://m.youtube.com/watch?feature=youtu.be&v=WLz_GnvoGS0
@openfoam_ir
https://m.youtube.com/watch?feature=youtu.be&v=WLz_GnvoGS0
@openfoam_ir
YouTube
Announcement: OpenFOAM Journal - journal.openfoam.com
I am very happy to announce our new initiative the OpenFOAM Journal. If you are interested in more detail, please wat the video until the end. The address of...
Physicists Surprised to Find That Thick Fluids Like Honey Flow Faster Than Water in Specially Coated Tubes
https://scitechdaily.com/physicists-surprised-to-find-that-thick-fluids-like-honey-flow-faster-than-water-in-specially-coated-tubes/
https://scitechdaily.com/physicists-surprised-to-find-that-thick-fluids-like-honey-flow-faster-than-water-in-specially-coated-tubes/
SciTechDaily
Physicists Surprised to Find That Thick Fluids Like Honey Flow Faster Than Water in Specially Coated Tubes
In specially coated tubes, the more viscous a liquid is, the faster it flows. It's widely known that thick, viscous liquids — like honey — flow more slowly than low-viscosity liquids, like water. Researchers were surprised to find this behavior flipped on…
Master thesis in Thermal Management of BEVs available at VEAS, Chalmers in collaboration with Siemens Gunnar Latz #thermalmanagement #BEVs
https://www.chalmers.se/SiteCollectionDocuments/M2/Exjobb%202021/Fordonsteknik%20och%20autonoma%20system/Mater_Thesis_ThermalManagement_2021.pdf
🔻 Don't miss!
@openfoam_ir
https://www.chalmers.se/SiteCollectionDocuments/M2/Exjobb%202021/Fordonsteknik%20och%20autonoma%20system/Mater_Thesis_ThermalManagement_2021.pdf
🔻 Don't miss!
@openfoam_ir
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This supercomputer shows how far COVID-19 particles can travel through the air without a face mask.
@OpenFOAM_ir
@OpenFOAM_ir
https://www.youtube.com/watch?v=nuV46erTgt8&feature=youtu.be&ab_channel=AsmaaHadane
🔻Tutorial - OpenFOAM: Simulation of Fluidized Bed using twoPhaseEulerFoam
@openfoam_ir
🔻Tutorial - OpenFOAM: Simulation of Fluidized Bed using twoPhaseEulerFoam
@openfoam_ir
YouTube
OpenFOAM Tutorial: Simulation of Fluidized Bed using twoPhaseEulerFoam
Test case and pdf tutorial available in: https://www.cemf.ir/how-to-simulate-a-gas-solid-fluidized-bed-using-openfoam/---------------------------------------...
🔻List of Open Source DEM (Discrete Elements Method) Software:
https://www.simonwenkel.com/2018/01/06/list-of-opensource-DEM-software.html
@openfoam_ir
https://www.simonwenkel.com/2018/01/06/list-of-opensource-DEM-software.html
@openfoam_ir
https://www.linkedin.com/posts/code-saturne-neptune-cfd_neptuneabrcfd-opensource-codeabrsaturne-ugcPost-6736911299369824256-X0hu
💥Stunning non-linear dynamics FSI using code saturne
@openfoam_ir
💥Stunning non-linear dynamics FSI using code saturne
@openfoam_ir
Linkedin
code_saturne - neptune_cfd on LinkedIn: #neptune_cfd #opensource #code_saturne | 13 comments
🆕 New feature in #neptune_cfd : non-linear deformable beam solver is now available with multiphase flows 🌊
It is based on Moving Immersed Solid & Fluid... 13 comments on LinkedIn
It is based on Moving Immersed Solid & Fluid... 13 comments on LinkedIn