Preprints

  • D. Nieto Simavilla, I Garcia-Beristain, A. Bonfanti, P. Espanol, M. Ellero (2024), Hammering at the entropy: A generic-guided approach to learning rheological constitutive equations using PINNs, preprint, doi.
  • N Moreno, K Korneev, A Semenov,A Topuz, T John, MP Lettinga, M Ellero, C Wagner, D A. Fedosov (2024), Aggregation and disaggregation of red blood cells: depletion versus bridging, preprint, doi.
  • P. Angerman, B Sandnes, R Seto and M Ellero (2024), Numerical Simulations of Spatio-temporal Instabilities in Discontinuous Shear Thickening Fluids, preprint, doi.
  • X. Dong, M. Ellero (2024), A GENERIC-guided active-learning SPH method for viscoelastic fluids using Gaussian Process Regression, preprint, doi.
  • E. Zhoravi, N. Moreno, D. Curtis, K, Hawking, M Ellero (2024) , Mesoscale Modelling of Fibrin Clots: The Interplay between Rheology and Microstructure at the Gel Point, preprint, doi.
  • D. Kundu, F. Balboa, M Ellero (2024), Sedimentation dynamics of a suspension of spherical and cubic colloids in Stokes flow, preprint, doi.
  • A García, D Hernández-Delfin, DJ Lee, M Ellero (2024), On the Modeling of Dynamic Queue Formation and Decision-Making of Pedestrians, preprint. doi.
  • B Delmotte, FB Usabiaga (2024), A scalable method to model large suspensions of colloidal phoretic particles with arbitrary shapes , preprint. doi.

2024

  • M. Ellero, K.D Housiadas, Nhan Phan-Thien (2024), Roger Tanner: 90 years of Rheology, Physics of Fluids 36, 110401. doi.
  • M. S.N. Oliveira, K. Zografos, M. Ellero, P.D. Anderson, R.J. Poole (2024), Editorial for XXI International Workshop on Numerical Methods for non-Newtonian Flows, J. Non-Newt. Fluid Mech. 332, 105296. doi
  • Z Xiong, P Angerman, M Ellero, B Sandnes, R Seto (2024), Ridge instability in dense suspensions caused by the second normal stress difference, Phys. Fluids 36, 024111. doi
  • P Angerman, SS Prasanna-Kuymar, B Sandnes, R Seto, M Ellero (2024), Microstructural SPH Model and Simulations of Discontinuous Shear-Thickening Fluids, Phys. Fluids 36, 033103 doi
  • Vazquez-Quesada A. , L Santelli ,M. Ellero (2024), Smoothed Particle Hydrodynamics simulations of integral multi-mode and fractional viscoelastic models, J. Non-Newt. Fluid Mech. 329, 105235 doi.
  • C Mo, L Navarini, F Suggi-Liverani, M Ellero (2023), Modelling swelling effects in real espresso extraction using 1-dimensional coarse-grained model, J. Food Engng. 365, 111843 . doi
  • A García, D Hernández-Delfin, B González, G Garitaonaindia, DJ Lee, M Ellero (2024), Analysis of local density during football stadium access: Integrating pedestrian flow simulations and empirical data , Physica A: Statistical Mechanics and its Applications, 638, 129635. doi
  • FB Usabiaga,M Ellero (2024), Rheology of moderately dilute suspensions of star colloids: the shape factor, Phys. Fluids, 36, 053321 doi.
  • H Gidituri, G Kabacaoğlu, M Ellero, FB Usabiaga (2024), Mapping flagellated swimmers to surface-slip driven swimmers , J. Comput. Phys. 510, 113081. doi.
  • A Rosales-Romero, AVazquez-Quesada, S S. Prasanna Kumar, J. E Lopez-Aguilar, M Ellero (2024), Effects of confinement-induced non-Newtonian lubrication forces on the rheology of a dense suspension, J. Non-Newt. Fluid Mech. 329, 105248. doi.
  • D Hernandez-Delfin, A Garcıa, M Ellero (2024), Rheology of a crowd: from faster-is-slower to shear thickening, Communication Physics 7, 152. doi.
  • A Bonfanti, R Santana, M Ellero, B Gholami (2024), On the Generalization of PINNs outside the training domain and the Hyperparameters influencing it, Neural Computing and Applications doi.
  • H Gidituri, M Ellero, FB Usabiaga (2024), Swimming Efficiently by Wrapping. J. Fluid Mech. 993, A7, doi.
  • N Moreno, S Nunes, V Calo (2024), Morphological transitions of block copolymer micelles: implications for isoporous membrane ordering, Macromol. Theory Simul., 2400046 doi
  • N Moreno, D Vázquez-Cortés, E Fried (2024), Sedimentation dynamics of triply twisted Möbius bands: Geometry versus topology Physical Review Research 6 (3), 033141 doi.
  • M Gosika, H Gidituri, H Pothukuchi, Flow structure around a microswimmer at fluid–fluid interface R Mishra, Fluid Dynamics Research 56 (4), 045507. doi.

2023

  • Nieto, D., P. Espanol, and M. Ellero (2023). Non-affine motion and selection of slip coefficient in constitutive modelling of polymeric fluids using a mixed derivative. J. Rheol. 67 (1), 253–267. doi
  • Garcia, A., D. Hernadez-Delfin, D.-J. Lee, and M. Ellero (2023). Limited visual range in the social force model: effects on macroscopic and microscopic dynamics. Physica A 612, 128461. doi
  • Ruiz-Lopez, J.-A., S. Prasanna Kumar, A. Vazqeuz-Quesada, J. de Vicente, and M. Ellero (2023). Tribological variable friction coefficient models for the simulation of dense suspensions of rough polydisperse particles. J. Rheol. 67 (2), 541–558. doi
  • Sanchez, J. M., M. Arribas, H. Galarraga, M. Garcia de Cortazar, M. Ellero, and F. Girot (2023). Effect of Mn addition, cooling rate and holding temperature on the modification and purification of iron-rich compounds in AlSi10MnMg(Fe) alloys. Helyon 9 (2), e13005. doi
  • Moreno, D., F. Balboa Usabiaga, N. Moreno Chaparro, and M. Ellero (2023). Computational modelling of passive microrheology of functionalized nano-particles. J. Chem. Phys. 158 (10), 104108. doi
  • Moreno Chaparro, N. and M. Ellero (2023). Generalized Lagrangian Heterogenous Multiscale Modeling of Complex Fluids. J. Fluid Mechanics, 969, 25 August 2023. doi
  • Vazquez-Quesada, A. and M. Ellero (2023). Smoothed Dissipative Particle Dynamics simulation dilute-to-dense Brownian suspensions: rheology and microstructure. J. Non-Newt. Fluid Mech. 317, 105044. doi
  • I Garcia-Beristain, M Figueroa-Landeta, JE López-Aguilar, M Ellero (2023) Numerical simulations of thixotropic semi-solid aluminium alloys in open-rotor and rotor–stator mixers, J. Non-Newt. Fluid Mech. 321, 105128. doi
  • C Mo, R Johnston, L Navarini, FS Liverani, M Ellero (2023), Exploring the link between coffee matrix microstructure and flow properties using combined X-ray microtomography and smoothed particle hydrodynamics simulations, Scientific Reports 13, 16374. doi
  • E Zohravi, N Moreno, M Ellero (2023), Computational mesoscale framework for biological clustering and fractal aggregation, Soft Matter 19 (38), 7399-7411. doi
  • B van der Wee, BC Blackwell, FB Usabiaga, AV Sokolov, IT Katz, Blaise Delmotte, Michelle M Driscoll (2023), A simple catch: thermal fluctuations enable hydrodynamic trapping of microrollers by obstacles, Science Advances, 9(10) eade032 doi

2022

  • Vazquez-Quesada, A. and M. Ellero (2022). GENERIC-compliant simulations of Brownian multi-particle systems: modeling stochastic lubrication. SEMA Journal 79, 165–185. doi
  • Mo, C., R. Johnston, L. Navarini, and M. Ellero (2022). Modelling swelling effects during coffee extraction with smoothed particle hydrodynamics. Physics of Fluids 34 (4), 043104. doi
  • Moreno, N., D. Moreno, F. Balboa Usabiaga, and M. Ellero (2022). Spikes morphology dictates a universal mechanism for SARS-CoV-2 and other enveloped viruses mobility. Scientific Report 12, 11080. doi
  • Nieto, D. and M. Ellero (2022). Mesoscopic simulations of inertial drag enhancement and polymer migration
    in viscoelastic solutions flowing around a confined array of cylinders. J. Non-Newt. Fluid Mech. 305, 104811. doi
  • Ellero, M. (2022). The strange case of shear-thinning in non-Brownian suspensions. Science Talks 3, 100032. doi
  • Rossi, E., I. Garcia de Beristain, A. Vazquez-Quesada, J. E. Lopez-Aguilar, and M. Ellero (2022). SPH simulations of thixo-viscoplastic fluid flow past a cylinder. J. Non-Newt. Fluid Mech. 308, 104891. doi
  • Lopez-Aguilar, J. E., O. Resendiz-Tolentino, H. R. Tamaddon-Jarohmi, M. Ellero, and O. Manero (2022), Flow past a sphere: Numerical predictions of thixo-viscoelastoplastic wormlike micellar solutions. J. Non-Newt. Fluid Mech. 309, 104902. doi
  • FB Usabiaga, B Delmott (2022) A numerical method for suspensions of articulated bodies in viscous flows e Journal of Computational Physics 464, 111365. doi
  • ES Bililign, F Balboa Usabiaga, YA Ganan, A Poncet, V Soni, S Magkiriadou, M J Shelley, D Bartolo, W TM Irvine (2022), Motile dislocations knead odd crystals into whorls , Nature Physics 18 (2), 212-218. doi
  • DN Simavilla, V Ramakrishnan, SK Smoukov, DC Venerus (2022), Experimental investigation of anomalous molecular probe diffusion in entangled polymer melts Soft Matter 18 (33), 6200-6208. doi
  • D Hernández-Delfin, DR Tunuguntla, T Weinhart, RC Hidalgo, AR Thornton (2022), Shape matters: Competing mechanisms of particle shape segregation , Physical Review E 106 (5), 054614. doi
  • T Pongo, B Fan, D Hernández-Delfin, J Török, R Stannarius, RC Hidalgo,  Ralf Stannarius, Raul Cruz Hidalgo, Tamás Börzsönyi, (2022), The role of the particle aspect ratio in the discharge of a narrow silo New Journal of Physics 24 (10), 103036. doi
  • D Hernández-Delfin, T Weinhart, RC Hidalgo (2022), Self-diffusion of spherocylindrical particles flowing under non-uniform shear rate, Soft Matter 18 (17), 3335-3341. doi
  • I Garcia-Beristain, L Remaki, Time-adaptive Adomian decomposition-based numerical scheme for Euler equations, Numerical Methods for Partial Differential Equations, Volume39, Issue1, 329-355. doi.

2021

  • Sagaya Prasanna Kumar, S., A. Vazquez-Quesada, and M. Ellero (2021). A conservative lubrication dynamics method for the simulations of dense non-colloidal suspensions with particle spin. J. Comput. Phys. 427, 110001. doi
  • Rossi, E., J. A. Ruiz-Lopez, A. Vazquez-Quesada, and M. Ellero (2021). Dynamics and rheology of a super-paramagnetic chain suspension under the combined effect of shear flow and rotating magnetic field. Soft Matter 17, 6006–6019. doi
  • Moreno Chaparro, N. and M. Ellero (2021). A virtual rheometer for arbitrary flow configurations in mesoscopic Smoothed Dissipative Particle Dynamics simulations. Phys. Fluids 33 (1), 012006. doi
  • Mo, C., R. Johnston, L. Navarini, and M. Ellero (2021). Modeling the flow through erodible porous media with smoothed dissipative particle dynamics. Physics of Fluids 33 (9), 093101. doi
  • A Kiessling, DN Simavilla, GG Vogiatzis, DC Venerus (2021), Thermal conductivity of amorphous polymers and its dependence on molecular weight Polymer 228, 123881. doi

2020

  • Sagaya Prasanna Kumar, S., A. Vazquez-Quesada, and M. Ellero (2020). Numerical investigation of the rheological behavior of a dense particle suspension in a biviscous matrix using a lubrication dynamics method. J. Non-Newt. Fluid Mech. 281, 104312. doi
  • M Ellero, Advanced Particle-Based Techniques for Complex Fluids and Multiscale Flow Processes , in: Burghelea, T., Bertola, V. (eds) Transport Phenomena in Complex Fluids. CISM International Centre for Mechanical Sciences, vol 598. 361-392 Springer, Cham. doi
  • N Moreno, B Sutisna, E Fried (2020), Entropic factors and structural motifs of triblock-terpolymer-based patchy nanoparticles Nanoscale12, 22059. doi
  • JH Piette, N Moreno, E Fried, AJ Giacomin (2020), The Complex Viscosity of Möbius macromolecules, Physics of Fluids 32 (9) doi
  • D Nieto Simavilla, AP Sgouros, GG Vogiatzis, C Tzoumanekas,V Georgilas, W MH Verbeeten, DN Theodorou (2020), Molecular dynamics test of the stress-thermal rule in polyethylene and polystyrene entangled melts Macromolecules 53 (3), 789-802. doi

2019

  • Ellero, M. and L. Navarini (2019). Mesoscopic modelling and simulation of espresso coffee extraction. Journal of Food Engineering 263, 181194. doi
  • Vazquez-Quesada, A., P. Espanol, R. Tanner, and M. Ellero (2019). Shear-thickening of a non-colloidal suspension with a viscoelastic matrix. Journal of Fluid Mechanics 880, 1070–1094. doi

2018

  • Ellero, M. and P. Espanol (2018). Everything You Always Wanted to Know About S-DPD* (*But Were Afraid to Ask). Applied Mathematics and Mechanics 39 (1), 103–124. doi
  • Vazquez-Quesada, A., N. Wagner, and M. Ellero (2018). Normal lubrication force between spherical particles immersed in a shear-thickening fluid. Physics of Fluids 30 (12). doi
  • Vazquez-Quesada, A., P. Espanol, and M. Ellero (2018). Apparent slip mechanism between two spheres based on solvent rheology: Theory and implication for the shear thinning of non-Brownian suspensions. Phys. Rev. Fluids 3 (12), 123302. doi

2017

  • Vazquez-Quesada, A., T. Franke, and M. Ellero (2017). Theory and simulation of the dynamics, deformation and breakup of a chain of superparamagnetic beads under a rotating magnetic field. Physics of Fluids 29, 032006. doi
  • Mahmud, A., S. Dai, A. Vazquez-Quesada, M. Ellero, and R. Tanner (2017). Investigating the Causes of Shear-Thinning in Non-Colloidal Suspensions: experiments. J. Non-Newtonian Fluid Mechanics 248, 1–7. doi
  • Vazquez-Quesada, A. and M. Ellero (2017). SPH modelling and simulation of spherical particles interacting in a viscoelastic matrix. Physics of Fluids 29, 121609–12. doi
  • Vazquez-Quesada, A., N. J. Wagner, and M. Ellero (2017). Planar channel flow of a discontinuous shear-thickening model fluid: theory and simulation. Physics of Fluids 29, 103104–10. doi

2016

  • Vazquez-Quesada and M. Ellero (2016). Rheology and microstructure of non-colloidal suspensions under shear studied with Smoothed Particle Hydrodynamics. Journal of Non-Newtonian Fluid Mechanics 233, 37–47. doi
  • Litvinov, S., Q. Xie, X. Hu, N. A. Adams, and M. Ellero (2016). Simulation of individual polymer and polymer solutions with smoothed dissipative particle dynamics. Fluids 1(1), 7. doi
  • Vazquez-Quesada, A. and M. Ellero (2016). Analytical solution for the lubrication force between two spheres in a biviscous fluid. Physics of Fluids 28 (7), 073101. doi
  • Vazquez-Quesada, A., R. I. Tanner, and M. Ellero (2016). Shear-thinning of non-colloidal suspensions. Phys. Rev. Lett. 117 (10), 108001. doi

2015

  • Gholami, B., A. Comerford, and M. Ellero (2015). SPH simulations of WBC adhesion to the endothelium: the role of haemodynamics and endothelial binding kinetics. Biomechanics and Modeling in Mechanobiology 14(6), 1317–1333. doi
  • Vazquez-Quesada, A., X. Bian, and M. Ellero (2015). Three-dimensional simulations of dilute and concentrated suspensions using Smoothed Particle Hydrodynamics. Computational Particle Mechanics, 3,  167–178. doi
  • M Ellero (2015), Passive microrheology simulations using stochastic particle methods, Procedia IUTAM 18, 18-27. doi

2014

  • Litvinov, S., X. Hu, M. Ellero, and N. A. Adams (2014). Mesoscopic simulations of the transient behaviour of semi-diluted polymer solutions in microchannel following extensional flow. Microfluids and Nanofluidics 16(1), 257–264. doi
  • Bian, X., S. Litvinov, M. Ellero, and N. Wagner (2014). Hydrodynamic shear thickening of particulate suspension under confinement. Journal of Non-Newtonian Fluid Mechanics (213), 39–49. doi
  • Bian, X. and M. Ellero (2014). A splitting integration scheme for SPH simulations of concentrated particle suspensions. Comp. Phys. Comm. 185(1), 53–62. doi
  • Gholami, B., A. Comerford, and M. Ellero (2014). A SPH multiscale particle model of the near-wall dynamics of leukocites in flow, Int. J. Num. Meth. Biomed. Engng. 30, 83–102. doi

2013

  • Vazquez-Quesada, A., M. Ellero, and P. Espanol (2013). A generalized Faxen’s theorem to nonsteady motion of a sphere through a compressible linear viscoealstic fluid in arbitrary flow. Phys. Rev E. 87, 032301(7). doi
  • Grilli, M., A. Vazquez-Quesada, and M. Ellero (2013). Transition to Elastic Turbulence and Mixing in a Periodic Channel Flow. Phys. Rev. Lett. 110, 174501(5). doi
  • Shi, Y., M. Ellero, and N. Adams (2013). A comparative analysis of interpolation schemes for the accurate estimation of energy spectrum in Lagrangian methods. Computer and Fluids 82(15), 122131. doi

2012

  • Vazquez-Quesada, A. and M. Ellero (2012). SPH simulations of a viscoelastic flow around a periodic array of cylinders confined in a channel. Journal of Non-Newtonian Fluid Mechanics 167, 1 –8. doi
  • Vazquez-Quesada, A., M. Ellero, and P. Espanol (2012). A SPH-based particle model for computational microrheology. Microfluidics and Nanofluidics 13 (6), 1–12. doi
  • Shi, Y., M. Ellero, and N. A. Adams (2012). Analysis of intermittency in under-resolved smoothed particle hydrodynamics direct numerical simulations of forced compressible turbulence. Phys. Rev E. 85, 036708. doi
  • Bian, X., S. Litvinov, R. Qian, M. Ellero, and N. A. Adams (2012). Multiscale modeling of particle in suspension with smoothed dissipative particle dynamics. Physics of Fluids 24(1), 012002. doi

2011

  • Ellero, M. and N. A. Adams (2011). SPH simulations of flow around a periodic array of cylinders confined in a channel. International Journal for Numerical Methods in Engineering 86(8), 1027–1040. doi

2010

  • Litvinov, S., M. Ellero, X. Hu, and N. Adams (2010). A splitting scheme for highly dissipative smoothed particle dynamics. J. Comput. Phys. 229(15), 5457 –5464. doi
  • Ellero, M., P. Espanol, and N. A. Adams (2010). Implicit atomistic viscosities in smoothed particle hydrodynamics. Phys. Rev. E 82 (4), 046702. doi
  • Litvinov, S., M. Ellero, X. Hu, and N. A. Adams (2010). Particle-layering effect in wall-bounded dissipative particle dynamics. Phys. Rev. E 82 (6), 066704. doi
  • S Litvinov, M Ellero, X Hu, N Adams (2010), Numerical Investigation of the Micromechanical Behavior of DNA Immersed in a Hydrodynamic Flow, High Performance Computing in Science and Engineering, Garching/Munich 2009; Transactions of the Fourth Joint HLRB and KONWIHR Review and Results Workshop, Dec. 8-9, 2009, Leibniz Supercomputing Centre, Garching/Munich, Germany. p. 147-160. Springer. doi

2009

  • Vazquez-Quesada, A., M. Ellero, and P. Espanol (2009). Consistent scaling of thermal fluctuations in smoothed dissipative particle dynamics. J. Chem. Physics 130(3), 034901. doi
  • Litvinov, S., M. Ellero, X. Hu, and N. A. Adams (2009). Self-diffusion coefficient in smoothed dissipative
    particle dynamics. J Chem. Physics 130(2), 021101. doi
  • Vazquez-Quesada, A., M. Ellero, and P. Espanol (2009). Smoothed particle hydrodynamic model for viscoelastic fluids with thermal fluctuations. Phys. Rev. E 79 (5), 056707. doi
  • Ellero, M., X. Hu, J. Frohlich, and N. . Adams (2009). IUTAM Symposium on Advances in Micro- and Nanofluidics: proceedings of the IUTAM Symposium on Advances in Micro- and Nanofluidics, Dresden, Germany, September 6-8, 2007. IUTAM bookseries. Springer. isbn: 9789048126255. doi

2008

  • Litvinov, S., M. Ellero, X. Hu, and N. A. Adams (2008). Smoothed dissipative particle dynamics model for polymer molecules in suspension. Phys. Rev. E 77 (6), 066703. doi.

2007

  • Tessarotto, M. and M. Ellero (2007). Unique representation of an inverse-kinetic theory for incompressible Newtonian fluids. Physica A: Statistical Mechanics and its Applications 373(0), 142 –152. doi
  • Ellero, M., M. Serrano, and P. Espanol (2007). Incompressible smoothed particle hydrodynamics. Journal of
    Computational Physics     226(2), 1731 –1752. doi
  • Tessarotto, M., M. Ellero, and P. Nicolini (2007). Inverse kinetic theory for quantum hydrodynamic equations. Phys. Rev. A 75 (1), 012105. doi

2006

  • Ellero, M., M. Kroger, and S. Hess (2006). Multiscale Modeling of Viscoelastic Materials Containing Rigid Non-rotating Inclusions. Multiscale Modeling and Simulation 5(3), 759–785. doi

2005

  • Ellero, M. and M. Tessarotto (2005). An inverse kinetic theory for the incompressible Navier-Stokes equations. Physica A: Statistical Mechanics and its Applications 355(24), 233 –250. doi
  • Ellero, M. and R. Tanner (2005). SPH simulations of transient viscoelastic flows at low Reynolds number.
    Journal of Non-Newtonian Fluid Mechanics 132(13), 61 –72. doi

2004

  • Ellero, M. and M. Kroger (2004). The hybrid BDDFS method: memory saving approach for CONNFFESSIT-
    type simulations. Journal of Non-Newtonian Fluid Mechanics 122(13), 147 –158. doi

2003

  • Ellero, M., P. Espanol, and E. G. Flekkøy (2003). Thermodynamically consistent fluid particle model for viscoelastic flows. Phys. Rev. E 68 (4), 041504. doI

2002

  • Ellero, M., M. Kroger, and S. Hess (2002). Viscoelastic flows studied by smoothed particle dynamics. Journal of Non-Newtonian Fluid Mechanics 105(1), 35 –51. doi