Till innehåll på sidan
Till KTH:s startsida

Journal papers 2025

Journal papers 2025

[1]
N. K. Agrawal et al., "Rheology and dynamics of dense particle suspensions in rotary shear flows," Journal of Fluid Mechanics, vol. 1018, 2025.
[2]
H. Aksoy et al., "Case study on SAF emissions from air travel considering emissions modeling impact," Transportation Research Interdisciplinary Perspectives, vol. 29, 2025.
[3]
J. F. Alarcón, A. Hanifi och D. S. Henningson, "Numerical studies of bypass transition delay on a wing using optimal control theory," Journal of Fluid Mechanics, vol. 1011, 2025.
[4]
J. F. Alarcón, A. Hanifi och D. S. Henningson, "On the size of transitional boundary-layer streaks," Journal of Fluid Mechanics, vol. 1007, 2025.
[5]
K. Amini och S. Milani, "Path Planning and Tracking for Overtaking Maneuvers of Autonomous Vehicles in Analogy to Supersonic Compressible Fluid Flow," Future Transportation, vol. 5, no. 4, 2025.
[6]
K. Amini och S. Milani, "Path Planning for Autonomous Vehicle Control in Analogy to Supersonic Compressible Fluid Flow—An Obstacle Avoidance Scenario in Vehicular Traffic Flow," Future Transportation, vol. 5, no. 4, 2025.
[7]
A. S. Avaro et al., "Microfluidic networks using isotachophoresis," Proceedings of the National Academy of Sciences of the United States of America, vol. 122, no. 45, 2025.
[8]
D. C.P. Blanco et al., "On the receptivity of a NACA0008 airfoil to high free-stream turbulence levels," Journal of Fluid Mechanics, vol. 1018, 2025.
[9]
G. Brethouwer, "Stability of plane Couette and Poiseuille flows rotating about the streamwise axis," Journal of Fluid Mechanics, vol. 1021, 2025.
[10]
M. Carlsson, S. Wallin och S. Girimaji, "Variable Resolution in Scale-Resolved Simulations of Turbulence," Flow Turbulence and Combustion, vol. 115, no. 1, s. 105-125, 2025.
[11]
G. M. Cavallazzi et al., "Deep Reinforcement Learning for the Management of the Wall Regeneration Cycle in Wall-Bounded Turbulent Flows," Flow Turbulence and Combustion, vol. 115, no. 3, s. 1291-1317, 2025.
[12]
A. Cremades, S. Hoyas och R. Vinuesa, "Classically studied coherent structures only paint a partial picture of wall-bounded turbulence," Nature Communications, vol. 16, no. 1, 2025.
[13]
C. Cura et al., "Linear modeling of a family of turbulent separation bubbles," Physical Review Fluids, vol. 10, no. 11, 2025.
[14]
F. M. D'Afiero, "Explainable sequential unsupervised data driven clustering for feature identification in external flows," Physics of fluids, vol. 37, no. 2, 2025.
[15]
F. M. D'Afiero, "Feature based analysis of low frequency oscillations in transonic low Reynolds airfoil flows," Physics of fluids, vol. 37, no. 5, 2025.
[16]
F. M. D'Afiero, "Static deep stall analysis augmented by numerically constrained turbulent flows," Physics of fluids, vol. 37, no. 1, 2025.
[17]
S. Davoodi et al., "Tuning Alignment, Strength, and Toughness in Functional Cellulose:Helux Filaments : A Molecular Trade-Off," Biomacromolecules, vol. 26, no. 7, s. 4133-4145, 2025.
[18]
S. Davoodi et al., "Confinement induced self-assembly of protein nanofibrils probed by microfocus X-ray scattering," Journal of Physical Chemistry B, vol. 129, no. 3, s. 1070-1081, 2025.
[19]
R. Deshpande et al., "Active and inactive contributions to the wall pressure and wall-shear stress in turbulent boundary layers," Journal of Fluid Mechanics, vol. 1003, 2025.
[20]
B. Eiximeno et al., "On deep-learning-based closures for algebraic surrogate models of turbulent flows," Journal of Fluid Mechanics, vol. 1020, 2025.
[21]
B. Font et al., "Deep reinforcement learning for active flow control in a turbulent separation bubble," Nature Communications, vol. 16, no. 1, 2025.
[22]
O. Gaffney et al., "The Earth alignment principle for artificial intelligence," Nature Sustainability, vol. 8, no. 5, s. 467-469, 2025.
[23]
X. Garcia et al., "Deep-reinforcement-learning-based separation control in a two-dimensional airfoil," International Journal of Heat and Fluid Flow, vol. 116, 2025.
[24]
Z. Ge, J. F. Brady och G. J. Elfring, "Nonmonotonic Diffusion in Sheared Active Suspensions of Squirmers," Physical Review Letters, vol. 135, no. 23, 2025.
[25]
Z. Ge och G. J. Elfring, "Hydrodynamic diffusion in apolar active suspensions of squirmers," Journal of Fluid Mechanics, vol. 1003, 2025.
[26]
A. Geetha Balasubramanian, R. Vinuesa och O. Tammisola, "Prediction of flow and polymeric stresses in a viscoelastic turbulent channel flow using convolutional neural networks," Journal of Fluid Mechanics, vol. 1009, 2025.
[27]
T. Golliard och M. Mihaescu, "Computational aeroacoustics of a heated supersonic jet exhausting an aerospike nozzle," Physics of fluids, vol. 37, no. 12, 2025.
[28]
T. Golliard och M. Mihaescu, "Swirling Flow Effects on the Aeroacoustic Signature of an Aerospike Nozzle," Journal of turbomachinery, vol. 147, no. 8, 2025.
[29]
W. Gong et al., "A Dynamic Network Model for Forced Imbibition Considering Competition Between Main-Meniscus Flow and Corner Flow," Water resources research, vol. 61, no. 7, 2025.
[30]
L. Guastoni et al., "Fully convolutional networks for velocity-field predictions based on the wall heat flux in turbulent boundary layers," Theoretical and Computational Fluid Dynamics, vol. 39, no. 1, 2025.
[31]
L. Guastoni och R. Vinuesa, "A new perspective on the simulation of stochastic problems in fluid mechanics with diffusion models," Nature Machine Intelligence, vol. 7, no. 6, s. 816-817, 2025.
[32]
S. Habibi et al., "Numerical study of particle suspensions in duct flow of elastoviscoplastic fluids," Journal of Fluid Mechanics, vol. 1007, 2025.
[33]
M. Hajipour, P. Schlatter och R. Örlü, "Experimental investigation of the turbulent boundary-layer footprint on the wake of a wing section," Physics of fluids, vol. 37, no. 12, 2025.
[34]
S. Hoyas et al., "Deep-learning-based assessment of skin friction in wall-bounded turbulence," Physical Review Fluids, vol. 10, no. 6, 2025.
[35]
L. Huusko et al., "Large Eddy Simulation of Canonical Atmospheric Boundary Layer Flows With the Spectral Element Method in Nek5000," Journal of Advances in Modeling Earth Systems, vol. 17, no. 10, 2025.
[36]
H. Hörwing et al., "Hemodynamics in femoro-femoral venovenous extracorporeal membrane oxygenation using large eddy simulations," Scientific Reports, vol. 15, no. 1, 2025.
[37]
K. T. Iqbal et al., "Natural convection of elastoviscoplastic fluids in a square cavity with differentially heated side walls," Journal of Fluid Mechanics, vol. 1021, 2025.
[38]
E. D. Janabadi, K. Amini och S. Rastegar, "On the Structural Design and Additive Construction Process of Martian Habitat Units Using In-Situ Resources on Mars," Aerospace, vol. 12, no. 9, 2025.
[39]
N. Jansson et al., "Design of Neko—A Scalable High‐Fidelity Simulation Framework With Extensive Accelerator Support," Concurrency and Computation, vol. 37, no. 2, 2025.
[40]
J. Jeon et al., "Inductive biased-deep reinforcement learning methods for flow control : Group-invariant and positional-encoding networks improve learning reproducibility and quality," Physics of fluids, vol. 37, no. 7, 2025.
[41]
X. Jiang et al., "Pseudo-turbulence induced by settling spheroids in a quiescent fluid," Journal of Fluid Mechanics, vol. 1011, 2025.
[42]
F. O. Johannessen Berstad, R. J. Hearst och I. Neunaber, "Wake merging and turbulence transition downstream of side-by-side porous discs," Journal of Fluid Mechanics, vol. 1015, 2025.
[43]
M. Karalis et al., "Lagrangian single-column modeling of Arctic air mass transformation during HALO-(𝒜 𝒞)3," Atmospheric Chemistry And Physics, vol. 25, no. 20, s. 13177-13198, 2025.
[44]
A. Karnam et al., "Insights into instability modes of supersonic square jets," Journal of Fluid Mechanics, vol. 1009, 2025.
[45]
M. Karp et al., "Experience and analysis of scalable high-fidelity computational fluid dynamics on modular supercomputing architectures," The international journal of high performance computing applications, vol. 39, no. 3, s. 329-344, 2025.
[46]
F. Larosa et al., "Large language models in climate and sustainability policy : limits and opportunities," Environmental Research Letters, vol. 20, no. 7, 2025.
[47]
M. Laudato, "A Neural-Operator Surrogate for Platelet Deformation Across Capillary Numbers," Bioengineering, vol. 12, no. 9, 2025.
[48]
W. Lei et al., "3-D-geometry-triggered transition from monotonic to non-monotonic effects of wettability on multiphase displacements in homogeneous porous media," Journal of Fluid Mechanics, vol. 1014, 2025.
[49]
W. Lei et al., "Advancing sustainable energy solutions with microfluidic porous media," Lab on a Chip, vol. 25, no. 14, s. 3374-3410, 2025.
[50]
S. Liu et al., "Flow Characteristics by Blood Speckle Imaging in Non-Stenotic Congenital Aortic Root Disease Surrounding Valve-Preserving Operations," Bioengineering, vol. 12, no. 7, 2025.
[51]
P. Loganathan et al., "Regional climate projections using a deep-learning–based model-ranking and downscaling framework : application to European climate zones," Environmental Science and Pollution Research, vol. 32, no. 33, s. 20133-20153, 2025.
[52]
X. Lu et al., "Pore-Scale Study of Non-Clogging Accumulation Effects on Microgel Particle Transport and Multiphase Displacements in Porous Media," Water resources research, vol. 61, no. 6, 2025.
[53]
X. Lu et al., "Geometry-mediated particle accumulation driven by nonhydrodynamic viscosity effect with flow control implications in porous media," Physical Review Fluids, vol. 10, no. 9, 2025.
[54]
V. Lupi et al., "Swirl switching in spatially developing bent pipes," Physical Review Fluids, vol. 10, no. 11, 2025.
[55]
F. Mallor et al., "Experimental characterization of turbulent boundary layers around a NACA 4412 wing profile," Experimental Thermal and Fluid Science, vol. 160, 2025.
[56]
I. Mascolo, M. Laudato och F. Guarracino, "The extensible Kapitza pendulum : some considerations on a classic stability problem," Meccanica (Milano. Print), vol. 60, no. 10-11, s. 3285-3297, 2025.
[57]
D. Massaro et al., "Adaptive Mesh Refinement for Global Stability Analysis of Transitional Flows," SPECTRAL AND HIGH-ORDER METHODS FOR PARTIAL DIFFERENTIAL EQUATIONS ICOSAHOM 2023, vol. 142, s. 329-345, 2025.
[58]
T. Mukha, M. Parsani och P. Schlatter, "Wall-modeled large-eddy simulation based on spectral-element discretization," Physics of fluids, vol. 37, no. 10, 2025.
[59]
S. Nanayakkara et al., "Detection of Thrombi in Extracorporeal Membrane Oxygenation Circuits Using Low-Frequency Acoustic Measurements," ASAIO journal (1992), 2025.
[60]
I. Neunaber, S. Yadala och R. J. Hearst, "Induced periodicity in wakes," Journal of Fluid Mechanics, vol. 1022, 2025.
[61]
F. Nilsson, L. M. Broman och L. Prahl Wittberg, "Canonical flow structures formed in a diagonal pump used in extracorporeal membrane oxygenation," Physics of fluids, vol. 37, no. 6, 2025.
[62]
H. Nobis et al., "Topology optimization of roughness elements to delay modal transition in boundary layers," Computers & Fluids, vol. 299, 2025.
[63]
M. Reichstein et al., "Early warning of complex climate risk with integrated artificial intelligence," Nature Communications, vol. 16, no. 1, 2025.
[64]
L. Rhomrasi et al., "LLM performance on mathematical reasoning in Catalan language," Results in Engineering (RINENG), vol. 25, 2025.
[65]
F. Rorro, L. M. Broman och L. Prahl Wittberg, "Performance Comparison of Centered and Tilted Blunt and Lighthouse Tip Cannulae for Drainage in Extracorporeal Life Support," Cardiovascular Engineering and Technology, vol. 16, no. 2, s. 238-250, 2025.
[66]
M. Sanchis och R. Vinuesa, "Pressure as boundary curvature: A variational approach to potential flows," Physics of fluids, vol. 37, no. 8, 2025.
[67]
S. Saoncella et al., "Local slip length and surfactant effects on liquid-infused surfaces," Journal of Fluid Mechanics, vol. 1022, 2025.
[68]
G. Sarnitsky et al., "Does small-scale turbulence matter for ice growth in mixed-phase clouds," Physical Review Fluids, vol. 10, no. 5, 2025.
[69]
A. Shahmardi et al., "The role of wetting on the flow of two immiscible fluids in porous media," Physics of fluids, vol. 37, no. 1, 2025.
[70]
R. Stanly et al., "Direct numerical simulation of a starting rotorat Rec = 15000," Journal of Visualization, vol. 28, no. 6, s. 1083-1090, 2025.
[71]
A. F. Stephens et al., "Preclinical evaluation," i Mechanical Circulatory and Respiratory Support (Second Edition), : Elsevier, 2025, s. 771-812.
[72]
T. M. Sugathapala et al., "Vertical transport of buoyant microplastic particles in the ocean : The role of turbulence and biofouling," Environmental Pollution, vol. 369, 2025.
[73]
P. Suárez Morales et al., "Flow control of three-dimensional cylinders transitioning to turbulence via multi-agent reinforcement learning," Communications Engineering, vol. 4, no. 1, 2025.
[74]
S. Tanriverdi et al., "Sheathless Elasto-Inertial Focusing of Sub-25 Nm Particles in Straight Microchannels," Small, vol. 21, no. 33, 2025.
[75]
F. Tonti, J. Rabault och R. Vinuesa, "Navigation in a simplified urban flow through deep reinforcement learning," Journal of Computational Physics, vol. 538, 2025.
[76]
J. Vasanth et al., "Multi-agent Reinforcement Learning for the Control of Three-Dimensional Rayleigh–Bénard Convection," Flow Turbulence and Combustion, vol. 115, no. 3, s. 1319-1355, 2025.
[77]
R. Vinuesa et al., "Balancing AI and human insights in scientific discovery : Challenges and guidelines," The Innovation, vol. 7, no. 2, 2025.
[78]
Y. Wang et al., "Separation control applied to the turbulent flow around a NACA4412 wing section," International Journal of Heat and Fluid Flow, vol. 116, 2025.
[79]
G. Wenbo et al., "Pore-scale simulation of shale oil flow in nanoporous media using lattice Boltzmann method," Acta Mechanica Sinica, vol. 57, no. 12, s. 2802-2813, 2025.
[80]
A. Wickramarachchi et al., "Cannula design," i Mechanical Circulatory and Respiratory Support (Second Edition), : Elsevier, 2025, s. 553-590.
[81]
C. Wittig et al., "The role of fluid friction in streamer formation and biofilm growth," npj Biofilms and Microbiomes, vol. 11, no. 1, 2025.
[82]
S. Yadala et al., "The effect of turbulence on a flexible finite wing : forces, deflections and the wingtip vortex," Journal of Fluid Mechanics, vol. 1019, 2025.
[83]
S. Yang, R. Vinuesa och N. Kang, "Model-agnostic AI framework with explicit time integration for long-term fluid dynamics prediction," Journal of Computational Design and Engineering, vol. 12, no. 10, s. 133-153, 2025.
[84]
Z. Yuan et al., "A numerical investigation of airfoil tonal noise reduction by roughness elements," Journal of Fluid Mechanics, vol. 1015, 2025.
[85]
G. Zampino, M. Atzori och R. Vinuesa, "Turbulence around two obstacles in tandem : Effects of obstacle height and separation," Physics of fluids, vol. 37, no. 7, 2025.
[86]
G. Zampino et al., "Aspect-ratio effect on the wake of a wall-mounted square cylinder immersed in a turbulent boundary layer," International Journal of Heat and Fluid Flow, vol. 112, 2025.
[87]
X. Zhou et al., "Drop splitting on hydrophobic wedge-shaped tips after central impact : effect of sharpness and wetting properties," Soft Matter, vol. 21, no. 10, s. 1949-1956, 2025.