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Moving Particle Semi-Implicit (MPS) Simulation On GPU | samadii/fluid

3 Tontonan11/01/2024

🌊 💦The Moving Particle Semi-Implicit (MPS) method is a particle-based simulation technique used for simulating fluid flows, among other applications. It is particularly well-suited for modeling complex free-surface flows and has gained popularity in the field of computational fluid dynamics (CFD). The MPS method falls under the category of mesh-free methods, where the simulation domain is discretized using particles instead of a traditional grid. 🌊💦 📌💦 The MPS method combines Lagrangian and Eulerian approaches. It uses particles to represent fluid elements and employs a semi-implicit approach to solve the Navier-Stokes equations. In this method, each particle carries information about properties such as velocity, pressure, and density. The simulation progresses through discrete time steps, during which particle properties are updated based on interactions with neighboring particles.🌊💦 This #simulationfriday we bring a particle-based CFD [mps] simulation on GPU(CUDA). 📩 Ready to revolutionize your designs? Contact us today at support@metariver.kr for a free consultation and discover how CFD can drive your success! #cfd #particles #lagrangian #mps #simulation #cuda #cae #particle #flow #computationalfluiddynamics #metariver #fluidmechanics #fluiddynamics #multiphysics #flows #sph #simulationsoftware #nvidia #fluidflow #couplings #cfddem #CFDEMcoupling #DEM #simulationfriday #gas #aerodynamics #navierstokes #mesh #메타리버테크놀러지 #시뮬레이션 #사마디
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samadii/fluid (CFD)
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particle-based approaches_ CFD vs. DEM (CUDA)
0:51

particle-based approaches_ CFD vs. DEM (CUDA)

6 Tontonan
2
MPS (Moving Particle Semi-implicit) Simulation Of Tank Sloshing | samadii/fluid
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MPS (Moving Particle Semi-implicit) Simulation Of Tank Sloshing | samadii/fluid

4 Tontonan
3
Sloshing Tank Simulation Using MPS (Moving Particle Semi-implicit) Method | samadii/fluid
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Sloshing Tank Simulation Using MPS (Moving Particle Semi-implicit) Method | samadii/fluid

8 Tontonan
4
Moving Particle Semi-Implicit (MPS) Simulation On GPU | samadii/fluid
0:59

Moving Particle Semi-Implicit (MPS) Simulation On GPU | samadii/fluid

3 Tontonan
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Lagrangian CFD Simulation  (Particle-based CFD) | samadii/fluid
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Lagrangian CFD Simulation (Particle-based CFD) | samadii/fluid

8 Tontonan
6
2-way coupling CFD+DEM vs. CFD+DBM (Bubble Discrete Element Method) | samadii/fluid
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2-way coupling CFD+DEM vs. CFD+DBM (Bubble Discrete Element Method) | samadii/fluid

4 Tontonan
7
Simulation of EV motor cooling | MPS-FEM coupled method for conjugated heat transfer
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Simulation of EV motor cooling | MPS-FEM coupled method for conjugated heat transfer

7 Tontonan
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Performance of the MPS (CFD) Method in Gear Lubrication | samadii/fluid
1:06

Performance of the MPS (CFD) Method in Gear Lubrication | samadii/fluid

4 Tontonan
9
Comprehensive Bubble Column Analysis using CFD+DBM 2-Way Coupling Simulation | samadii/fluid
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Comprehensive Bubble Column Analysis using CFD+DBM 2-Way Coupling Simulation | samadii/fluid

2 Tontonan
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CFD Simulation  Of A Tank Sloshing Phenomena With Baffles | samadii/fluid
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CFD Simulation Of A Tank Sloshing Phenomena With Baffles | samadii/fluid

11 Tontonan
11
Volume Rendering Techniques for Particle-based CFD(MPS) | samadii/fluid
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Volume Rendering Techniques for Particle-based CFD(MPS) | samadii/fluid

4 Tontonan
12
Hot Melt Extrusion (HME) process simulation |  Lagrangian CFD (particle-based CFD)
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Hot Melt Extrusion (HME) process simulation | Lagrangian CFD (particle-based CFD)

7 Tontonan
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MPS Simulation for Gearbox Optimization | samadii/fluid
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MPS Simulation for Gearbox Optimization | samadii/fluid

4 Tontonan
14
Fully Lagrangian Approach of Three-Phase Systems for Debris Bed Formation | samadii/fluid
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Fully Lagrangian Approach of Three-Phase Systems for Debris Bed Formation | samadii/fluid

5 Tontonan