Articles

Submitted

[25] Pereira, A.S. Valade, N. Hachem, E. Valette, R. Folding instabilities in non-Newtonian viscous
sheets: shear thinning and shear thickening effects. Submitted to Physics of Fluid. (2020)

[24] Pereira, A.S., Thompson, R. L., Mompean, G. Beyond the maximum drag reduction asymptote: the pseudo-laminar state. Submitted to Journal of Fluid Mechanics – Rapids.  (Jan – 2020)

[23] Pereira, A.S., Valette, R., Hachem, E.,  Mackley, M. R., Butler, S. A. Filament stretching and final breakup geometries of Newtonian liquids and a high yield stress Nivea Cream. Submitted to Soft Matter. (Dec – 2019)

2022

[22] Pereira, A., Isukwem, K., Gatin, J., Hachem, E., Valette, R. (2022). Multiphase Flows with Viscoplastic Materials. In: Ferreira Martins, M., Ramos, R., Belich, H. (eds) Multiphase Flow Dynamics. Lecture Notes in Mechanical Engineering (April 2022). 

2020

[21] Pereira, A.S., Thompson, R. L., Mompean, G. Persistence–of–straining and polymer alignment in viscoelastic turbulence. Applications in Engineering Science, 4, 100026. (December 2020).

[20] Valette, R., Pereira, A. S., Riber, S., Sardo, L., Hachem, E. Viscoplastic dam-breaks. Journal of Non-Newtonian Fluid Mechanics, 287, 104447. (november 2020).

[19] Pereira, A.S., Valette, R., Hachem, E., Inertia-dominated coiling instabilities of power-law fluids. Journal of Non-Newtonian Fluid Mechanics, 282, 104321. (August 2020)

2019

[18] Pereira, A.S., Thompson, R. L., Mompean, G. Common features between the Newtonian laminar–turbulent transition and the viscoelastic drag-reducing turbulence. Journal of Fluid Mechanics, 877, 405-428 (October 2019).

[17] Pereira, A.S., Larcher, A., Hachem, E., Valette, R.. Capillary, viscous, and geometrical effects on the buckling of power-law fluid filaments under compression stresses. Computers & Fluids, 190, 514-519 (2019).

[16] Valette, R., Hachem, E., Khalloufi, M., Pereira, A. S., Mackley, M. R., Butler, S. A.. The effect of viscosity, yield stress, and surface tension on the deformation and breakup profiles of fluid filaments stretched at very high velocities. Journal of Non-Newtonian Fluid Mechanics 263, 130-139 (2019).

2018

[15] Pereira, A.S., Mompean, G., Soares, E.J. Modeling and numerical simulations of polymer degradation in a drag reducing plane Couette flow. Journal of  Non-Newtonian Fluid Mechanics 256, 1-7 (2018).

2017

[14] Pereira, A.S., Mompean, G., Thompson, R.L., Soares, E.J. Elliptical, parabolic, and hyperbolic exchanges of energy in drag reducing plane Couette flows. Physics of Fluids 29, (2017).

[13] Pereira, A.S., Mompean, G., Thais, L., Soares, E.J., Thompson, R.L. Active and hibernating turbulence in drag-reducing plane Couette flow. Physical Review Fluids 2, (2017).

[12] Pereira, A.S., Mompean, G., Thais, L., Thompson, R.L. Statistics and tensor analysis of polymer coil-stretch mechanism in turbulent flows. Journal of Fluid Mechanics 824, 135-173 (2017).

[11] Pereira, A.S., Mompean, G., Thais, L., Soares, E.J. Transient aspects of drag reducing plane Couette flows. Journal of Non-Newtonian Fluid Mechanics 241, 60-69 (2017).

2016

[10] Martins, R.S., Pereira, A.S., Mompean, G., Thais, L., Thompson, R.L. An objective perspective for classic flow classification criteria. Comptes Rendus Mécanique 344, 52-59 (2016).

[9] Andrade, R.M., Pereira, A.S., Soares, E.J. Drag reduction in synthetic seawater by flexible and rigid polymer addition into a rotating cylindrical double gap device. Journal of Fluid Engineering 138, (2016).

[8] Pereira, A.S., Martins, R.S., Mompean, G., Thais, L., Thompson, R.L. On the Extension of Polymer Molecules in Turbulent Viscoelastic Flows: Statistical and Tensor Investigation. In: Michel Stanislas; Javier Jimenez; Ivan Marusic. (Org.). ERCOFTAC Series. 1ed.: Springer International Publishing 23, 171-180 (2016).

[7] Martins, R.S., Pereira, A.S., Mompean, G., Thais, L., Thompson, R.L. On Objective and Nonobjective Kinematic Flow Classification Criteria. In: Michel Stanislas; Javier Jimenez; Ivan Marusic. (Org.). ERCOFTAC Series. 1ed.: Springer International Publishing 23, 419-428 (2016).

2015

[6] Soares, E.J., Sandoval, G.A.B., Silva, L.A.S., Pereira, A.S., Silva, R.T., Thomaz, F. Loss of efficiency of polymeric drag reducers by high Reynolds number flows in tubes with imposed pressure. Physics of Fluids 27, 125105-1–125105-23 (2015).

[5] Pereira, A.S., Martins, R.S., Mompean, G. Thais, L., Thompson, R.L. Analyses statistiques et tensorielles de l’étirement des polymères dans les écoulements viscoélastiques turbulents en canal plan. Rhéologie 27, 34-42 (2015).

[4] Sandoval, G.A.B., Silva, R.T., Soares, E.J., Silva, L.A.S., Thomaz, F., Pereira, A.S. Polymer degradation in turbulent drag reducing flows in pipes. Thermal Engineering 14, 3-6 (2015). 

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