Journal papers 2024
[1]
V. Agrawal et al.,
"An efficient isogeometric/finite-difference immersed boundary method for the fluid–structure interactions of slender flexible structures,"
Computer Methods in Applied Mechanics and Engineering, vol. 418, 2024.
[2]
J. F. Alarcón et al.,
"Role of streak secondary instabilities on free-stream turbulence-induced transition,"
Journal of Fluid Mechanics, vol. 988, 2024.
[3]
F. Alcantara-Avila et al.,
"Validation of symmetry-induced high moment velocity and temperature scaling laws in a turbulent channel flow,"
Physical review. E, vol. 109, no. 2, 2024.
[4]
K. Amini et al.,
"Scaling laws for near-wall flows of thixo-elasto-viscoplastic fluids in a millifluidic channel,"
Physics of fluids, vol. 36, no. 2, 2024.
[5]
V. Baxerres, R. Vinuesa and H. Nagib,
"Evidence of quasiequilibrium in pressure-gradient turbulent boundary layers,"
Journal of Fluid Mechanics, vol. 987, 2024.
[6]
K. Bazesefidpar and O. Tammisola,
"The effect of contact angle hysteresis on a droplet in a viscoelastic two-phase system,"
Physics of fluids, vol. 36, no. 3, 2024.
[7]
D. C. P. Blanco et al.,
"Linear and nonlinear receptivity mechanisms in boundary layers subject to free-stream turbulence,"
Journal of Fluid Mechanics, vol. 979, 2024.
[8]
A. Broms and A.-K. Tornberg,
"A barrier method for contact avoiding particles in Stokes flow,"
Journal of Computational Physics, vol. 497, pp. 112648-112648, 2024.
[9]
H. T. Caddy et al.,
"Modelling large scale artery haemodynamics from the heart to the eye in response to simulated microgravity,"
npj Microgravity, vol. 10, no. 1, 2024.
[10]
A. Cremades et al.,
"Identifying regions of importance in wall-bounded turbulence through explainable deep learning,"
Nature Communications, vol. 15, no. 1, 2024.
[11]
A. Dotto et al.,
"Stability of low-pressure turbine boundary layers under variable Reynolds number and pressure gradient,"
Physics of fluids, vol. 36, no. 3, 2024.
[12]
H. Eivazi, Y. Wang and R. Vinuesa,
"Physics-informed deep-learning applications to experimental fluid mechanics,"
Measurement science and technology, vol. 35, no. 7, 2024.
[13]
M. Fazeli et al.,
"Wall-modeled large eddy simulation of 90° bent pipe flows with/without particles : A comparative study,"
International Journal of Heat and Fluid Flow, vol. 105, 2024.
[14]
T. Golliard and M. Mihaescu,
"Computational Aeroacoustics for a Cold, Non-Ideally Expanded Aerospike Nozzle,"
Journal of turbomachinery, vol. 146, no. 2, 2024.
[15]
A. Grujić et al.,
"Collisions among elongated settling particles : The twofold role of turbulence,"
Physics of fluids, vol. 36, no. 1, 2024.
[16]
S. M. Habibi Khorasani, M. Luhar and S. Bagheri,
"Turbulent flows over porous lattices: alteration of near-wall turbulence and pore-flow amplitude modulation,"
Journal of Fluid Mechanics, vol. 984, 2024.
[17]
H. F. Hosen et al.,
"Dynamics of a single bubble in Newtonian and non-Newtonian fluids: Experimental and simulation approaches,"
International Journal of Multiphase Flow, vol. 174, 2024.
[18]
J. Jeon et al.,
"Residual-based physics-informed transfer learning: A hybrid method for accelerating long-term CFD simulations via deep learning,"
International Journal of Heat and Mass Transfer, vol. 220, 2024.
[19]
S. Kern et al.,
"Direct numerical simulations of an airfoil undergoing dynamic stall at different background disturbance levels,"
Journal of Fluid Mechanics, vol. 986, 2024.
[20]
S. Kern et al.,
"Onset of absolute instability on a pitching aerofoil,"
Journal of Fluid Mechanics, vol. 988, 2024.
[21]
M. Laudato et al.,
"Sound generation mechanisms in a collapsible tube,"
Journal of the Acoustical Society of America, vol. 155, no. 5, pp. 3345-3356, 2024.
[22]
S. Liu et al.,
"A new type of simplified inverse Lax-Wendroff boundary treatment I : Hyperbolic conservation laws,"
Journal of Computational Physics, vol. 514, 2024.
[23]
V. Lupi et al.,
"Modal stability analysis of toroidal pipe flow approaching zero curvature,"
Journal of Fluid Mechanics, vol. 987, 2024.
[24]
V. Lupi, R. Örlü and P. Schlatter,
"Direct Numerical Simulations of Turbulent Flow in Helical Pipes,"
in ERCOFTAC Series, : Springer Science and Business Media B.V., 2024, pp. 362-367.
[25]
F. Mallor et al.,
"In-Situ Analysis of Backflow Events and Their Relation to Separation in Wings Through Well-Resolved LES,"
in ERCOFTAC Series, : Springer Science and Business Media B.V., 2024, pp. 17-22.
[26]
J. A. Martin et al.,
"Direct numerical simulations of a novel device to fight airborne virus transmission,"
Physics of fluids, vol. 36, no. 2, 2024.
[27]
D. Massaro et al.,
"A comprehensive framework to enhance numerical simulations in the spectral-element code Nek5000,"
Computer Physics Communications, vol. 302, 2024.
[28]
D. Massaro and P. Schlatter,
"Global stability of the flow past a stepped cylinder,"
Journal of Fluid Mechanics, vol. 988, 2024.
[29]
H. Nagib, R. Vinuesa and S. Hoyas,
"Utilizing indicator functions with computational data to confirm nature of overlap in normal turbulent stresses: Logarithmic or quarter-power,"
Physics of fluids, vol. 36, no. 7, 2024.
[30]
F. F. Nerini et al.,
"Extending the Sustainable Development Goals to 2050-a road map,"
Nature, vol. 630, no. 8017, pp. 555-558, 2024.
[31]
L. P. Parker et al.,
"Venovenous extracorporeal membrane oxygenation drainage cannula performance : From generalized to patient-averaged vessel model,"
Physics of fluids, vol. 36, no. 6, 2024.
[32]
L. P. Parker et al.,
"In silico parametric analysis of femoro-jugular venovenous ECMO and return cannula dynamics : In silico analysis of femoro-jugular VV ECMO,"
Medical Engineering and Physics, vol. 125, 2024.
[33]
S. Pasch et al.,
"Measurements in a Turbulent Channel Flow by Means of an LDV Profile Sensor,"
Flow Turbulence and Combustion, vol. 113, no. 1, pp. 195-213, 2024.
[34]
M. J. Picklo et al.,
"Denoising Particle-In-Cell data via Smoothness-Increasing Accuracy-Conserving filters with application to Bohm speed computation,"
Journal of Computational Physics, vol. 502, 2024.
[35]
[36]
F. Rorro et al.,
"Backflow at the inlet of centrifugal blood pumps enhanced by geometrical features,"
Physics of fluids, vol. 36, no. 3, 2024.
[37]
S. Saoncella et al.,
"Contact-angle hysteresis provides resistance to drainage of liquid-infused surfaces in turbulent flows,"
Physical Review Fluids, vol. 9, no. 5, 2024.
[38]
P. D. Sinko et al.,
"Estimation of the concentration boundary layer adjacent to a flat surface using computational fluid dynamics,"
International Journal of Pharmaceutics, vol. 653, 2024.
[39]
A. Solera-Rico et al.,
"β-Variational autoencoders and transformers for reduced-order modelling of fluid flows,"
Nature Communications, vol. 15, no. 1, 2024.
[40]
N. Takeishi et al.,
"Viscoelasticity of suspension of red blood cells under oscillatory shear flow,"
Physics of fluids, vol. 36, no. 4, 2024.
[41]
S. Tanriverdi et al.,
"Elasto-inertial focusing and particle migration in high aspect ratio microchannels for high-throughput separation,"
Microsystems and Nanoengineering, vol. 10, no. 1, 2024.
[42]
S. Toosi et al.,
"The Effect of Wing-Tip Vortices on the Flow Around a NACA0012 Wing,"
in ERCOFTAC Series, : Springer Science and Business Media B.V., 2024, pp. 183-188.
[43]
R. Vinuesa,
"Perspectives on predicting and controlling turbulent flows through deep learning,"
Physics of fluids, vol. 36, no. 3, 2024.
[44]
Y. Wang et al.,
"Towards optimal β-variational autoencoders combined with transformers for reduced-order modelling of turbulent flows,"
International Journal of Heat and Fluid Flow, vol. 105, 2024.
[45]
S. Zamani Salimi et al.,
"A Volume-of-Fluid method for multicomponent droplet evaporation with Robin boundary conditions,"
Journal of Computational Physics, vol. 514, 2024.
[46]
K. Đurović et al.,
"Direct numerical simulation of transition under free-stream turbulence and the influence of large integral length scales,"
Physics of fluids, vol. 36, no. 7, 2024.