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― 5 min read
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Spinners interact and synchronize on a vibrating liquid surface, revealing fascinating behaviors.
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Patient-specific models enhance understanding of heart blood flow and treatment strategies.
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Exploring how elastic turbulence improves mixing in viscoelastic fluids.
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nekCRF enhances combustion simulations for better efficiency and lower emissions.
Stefan Kerkemeier, Christos E. Frouzakis, Ananias G. Tomboulides
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A look into how machine learning improves the study of material flow.
David Nieto Simavilla, Andrea Bonfanti, Imanol García de Beristain
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Study reveals unexpected interactions of particles in viscous fluids near walls.
Isabell Noichl, Clarissa Schönecker
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Exploring the breakup of liquid jets and its implications for various industries.
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A new method enhances moisture representation in weather models.
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A new method speeds up fluid simulations using a blend of machine learning and CFD.
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This research advances modeling of turbulent flows in rotating systems.
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New insights into controlling tiny particles for various applications.
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Learn how viscoelastic fluids behave in various applications.
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This study explores how particles influence fluid movement in turbulent conditions.
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Machine learning refines predictions for gas turbine performance and efficiency.
Harshal D. Akolekar
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Combining neural and diffusion models improves accuracy in turbulence predictions.
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Research reveals new methods for studying complex fluid behaviors under rapid rotation.
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This study highlights the effects of heating direction on carbon dioxide flow and heat transfer.
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Exploring chaotic behavior in fluid dynamics through Taylor-Couette flow findings.
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Explore the role of Lattice Boltzmann Method in studying multiphase flows.
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A novel approach unites solid and fluid dynamics through particle flow maps.
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Research highlights using influence functions to enhance PINN performance in physics problems.
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Exploring the relationship between fluid flow and surface properties.
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Examining how fluids and solids interact in everyday scenarios.
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An overview of superfluidity and its mathematical modeling with the HVBK equations.
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Exploring the role of internal waves in ocean behavior and energy transfer.
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uniGasFoam enhances how we study gases in low-density environments.
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Discover the SALT method for improved fluid dynamics modeling.
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A study on how symmetries shape fluid flow behaviors.
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Research reveals high particle density shifts focus to outer walls in microfluidic devices.
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A new approach enhances predictions for compressible turbulence in fluid dynamics.
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A study on how thermal fluctuations affect fluid dynamics in turbulent conditions.
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