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Every paper Pith has read. Search by title, abstract, or pith.
888 papers in physics.flu-dyn · page 5
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Diffusio-osmosis drives flows in nanochannels without semi-permeable walls
Diffusio-osmotic transport in nanochannels
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Scale-invariance fixes analogue ensemble volumes and dispersion
Structural and Lagrangian properties of analogue ensembles to characterize multifractality of stochastic processes
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Lattice Boltzmann matches literature for unconfined cylinder flow
Lattice Boltzmann methodology for unconfined flows
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Turbulence scaling exponents level off at 2.2 for high orders
Experimental Evidence for Longitudinal Scaling Exponent Saturation in Shear Turbulence
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Dual heterogeneity shifts membrane trade-off to higher permeability at fixed rejection
Hindered transport of spherical particles in cylindrical pores: The role of structural heterogeneity in rejection-permeability trade-offs
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Local entropic scheme recovers full anisotropic advection-diffusion
Entropic lattice Boltzmann method for general anisotropic advection--diffusion
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Algorithm locates reflectionless shallow-water waves with varying depth and current
Traveling surface wave propagation on shallow water with variable bathymetry and current
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Surface shear viscosity leaves concentric droplet velocity unchanged
Effects of surface viscosities on the motion of a droplet enclosing a translating particle
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η-grid cuts DNS points to 10% of standard grids at Re=6000
Leveraging unstructured grids for direct numerical simulations of wall turbulence
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Pre-charged polymers hand ions to droplets and speed their motion
Pre-charging polymer surfaces enhances droplet mobility and electrification
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ALE correction enables stable ML predictions for fluid-structure flows
An ALE-Consistent Graph Neural Operator-Transformer Framework for Fluid-Structure Interaction
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Buoyancy anomaly drives three phases of finger convection growth
Dynamics of finger-type convection in double-diffusive instability
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Navier slip matches microscale velocity acceleration at contact lines
The rapidly advancing contact line Part-1: Navier slip and microscale inertial effects
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Realistic flows weaken wave frequency spreading tenfold
Frequency spreading of internal wave energy by balanced flows in two dimensions
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Model simulates gas cluster ripening in sandstone over 48 hours
Time-dependent pore-network modelling of Ostwald ripening in porous media
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Curved menisci shift sloshing frequencies in microgravity tanks
Curvature-corrected sloshing spectra for cylindrical tanks in microgravity
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Restoring omitted terms lifts IB methods to second-order accuracy
Beyond first-order accuracy in continuous-forcing immersed boundary methods, and their well-conditioned projection-based solution
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Merging identical phases fixes unique free-energy closure for N-phase models
Mixture-aware closure of the N-phase Navier--Stokes--Cahn--Hilliard mixture model
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Heterogeneity speeds gravity currents but reduces dissolution
Mixing and spreading of gravity currents in heterogeneous porous media
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Calibrated phase field model matches molecular dynamics for contact lines
Cahn-Hilliard Phase Field modelling captures nanoscale contact line dynamics on high-friction surfaces
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One plane of PIV data reconstructs 3D stall cells
To stall-cell or not to stall-cell: Variational data assimilation of 3D mean flow past a stalled airfoil
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Ageostrophic shear boosts ocean overturning instability by 20%
Overturning instability in forced ageostrophic oceanic flows
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Early sliding shapes asymmetric ice on inclined surfaces
Asymmetric freezing of a sliding droplet on an inclined surface
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Viscoelastic microswimmers reverse direction at critical frequency
Propulsion and far-field hydrodynamics of linked-sphere microswimmers with viscoelastic deformability
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AGN jets and winds together stir turbulence to quench star formation
Turbulence and Star Formation Suppression in Elliptical Galaxies: The Role of Active Galactic Nucleus Jet Wind Interaction
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Particle kinetic energy alone trains turbulence sub-grid models
Training of particle-turbulence sub-grid-scale closures with just particle data
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Hybrid neural operator speeds lattice Boltzmann flows by 70 percent
Hybrid Fourier Neural Operator-Lattice Boltzmann Method
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Compressible Navier-Stokes recast in Schrödinger variables
Compressible Navier--Stokes Flow in Schr\"odinger-Type Variables
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Pressure nudging recovers slightly compressible flows in incompressible models
Data assimilation for slightly compressible flow
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Temperature-dependent Korteweg stresses couple mechanics and heat
Constitutive Modelling of Korteweg Fluids Using Liu's Method
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Diffusion model upsamples coarse wind turbulence to fine detail
Conditional diffusion denoising probabilistic model for super-resolution of atmospheric boundary layer large eddy simulation
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Clustering CFD data creates accurate fast compartment models
Compartment Modelling of Multiphase Reactors using Unsupervised Clustering
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Phase difference controls vortex direction at oscillating holes
Wave Vortices Around Oscillating Subwavelength Holes: Water-Wave Observation
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Neural operator matches LES accuracy for wall turbulence
Large-eddy simulation nets (LESnets) based on physics-informed neural operator for wall-bounded turbulence
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Multi-jet RL control raises airfoil efficiency from 53 to 73 percent
A Provably Robust Multi-Jet Framework applied to Active Flow Control of an Airfoil in Weakly Compressible Flow
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Baroclinic front adjustment reduces to rotating density gradient
A conservative low-order model for Boussinesq baroclinic fronts
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Point force deforms thin gel film only near contact
Linear poroelastic response of thin permeable gel films
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Hybrid scheme unifies continuum and rarefied gas flow modeling
A Hybrid Gas-Kinetic Scheme and Discrete Velocity Method for Continuum and Rarefied Flows
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Hybrid scheme switches between GKS and DVM for dense and sparse gases
A Hybrid Gas-Kinetic Scheme and Discrete Velocity Method for Continuum and Rarefied Flows
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Contact line sets droplet stretch limit before detachment
Impulse-driven capillary detachment
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Near-field streaks sustain elastic turbulence in polymer jets
Coherent structures in Newtonian and viscoelastic turbulent planar jets
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Supersonic turbulence makes rotational spectra steeper
Scaling in Supersonic Turbulence: Energy Spectra and Fluxes using High-Fidelity Direct Numerical Simulations
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Hybrid models predict viscoelastic jet long-term statistics
Reduced-order modeling of a viscoelastic turbulent jet with hybrid machine learning models
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Symmetry yields unified mixing length law for APG boundary layers
Revisiting the mixing length scaling in pressure-gradient turbulent boundary layers via a symmetry approach
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Lattice porosity sets settling speed to φ^0.3 in free fluid
Viscous Settling of Bravais Unit-Cells
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Dual finite-volume method solves shallow water equations across regimes
An Asymptotic-Preserving Dual Formulation Finite-Volume Method for the Thermal Rotating Shallow Water Equations
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Liquid jet breakup yields scale- and structure-specific fractal measures
Scale- and Structure-Dependent Fractal Dimensions in a Two-Dimensional Atomizing Liquid Jet
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Sparse polynomials match neural nets for turbulence closure
Discovery of Sparse Invariant Subgrid-Scale Closures via Dissipation-Controlled Training for Large Eddy Simulation on Anisotropic Grids
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Curvature gradient sets rigid rotation speed for vortex pairs on catenoid
Co-rotating Vortices on Surfaces of Variable Negative Curvature: Hamiltonian Structure and Curvature-Induced Drift
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Curvature gradient sets rotation rate of vortex pairs on catenoid
Co-rotating Vortices on Surfaces of Variable Negative Curvature: Hamiltonian Structure and Curvature-Induced Drift