En cliquant sur le bouton ci-dessous, vous pouvez consulter la liste des dernières publications scientifiques du laboratoire dans la "Collection HAL du M2P2" qui permet de faire des recherches par année, auteur, type de document (article scientifique, ouvrage, chapitre d'ouvrage, actes de conférence...), etc.
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Philippe Meliga, E. Hachem. Time-accurate calculation and bifurcation analysis of the incompressible flow over a square cavity using variational multiscale modeling. Journal of Computational Physics, Elsevier, 2019, 376, pp.952-972. 〈hal-01946893〉 Plus de détails...
A thorough variational multiscale (VMS) modeling of the Navier-Stokes equations is used to compute numerical solutions of the incompressible flow over an open cavity. This case features several competing instabilities, and is highly challenging for VMS methods with regard to frequency and pattern selection, because of the non-normality of the linearized Navier-Stokes operator. The relevance of the approach is thus carefully assessed by comparing to direct numerical simulation (DNS) data benchmarked at several Reynolds numbers, and highly accurate time advancing methods are shown to predict relevant evolutions of the transient and saturated solutions. The VMS reduces substantially the computational cost, by similar to 35% (resp. similar to 60%) in terms of CPU time using a semi-implicit discretization scheme based on backward differentiation formula (resp. the implicit Crank-Nicholson scheme), and by similar to 80% in terms of memory requirement. Eventually, the highly efficient semi-implicit VMS numerical framework is used to unravel the onset of the flow oscillations and the selection of the limit cycle frequency, that happens to involve a subcritical Neimark-Sacker bifurcation.
Philippe Meliga, E. Hachem. Time-accurate calculation and bifurcation analysis of the incompressible flow over a square cavity using variational multiscale modeling. Journal of Computational Physics, Elsevier, 2019, 376, pp.952-972. 〈hal-01946893〉
I. García-Casas, Christelle Crampon, A. Montes, C. Pereyra, E.J. Martínez de La Ossa, et al.. Supercritical CO2 impregnation of silica microparticles with quercetin. The Journal of Supercritical Fluids, 2019, 143, pp.157-161. 〈hal-01946903〉 Plus de détails...
Supercritical carbon dioxide has been used to develop two methods for the impregnation of porous silica beads with a natural antioxidant, quercetin. These methods involved batch and semi-continuous supercritical impregnations. The first experiments performed in batch mode helped to understand the influence of pressure, temperature, duration, and the presence of a co-solvent on the impregnation efficiency. A co-solvent was added due to the low solubility of quercetin in supercritical CO2 under the operating conditions studied. In the range of temperatures and pressures studied, the best operating conditions, i.e., those that led to the highest quantity of quercetin impregnated (300 mu g of quercetin per g of silica), were 10 MPa and 323 K with ethanol as co-solvent for 2 h. These operating conditions, highlighted through the batch mode experiments, were subsequently applied to the semi-continuous process. This approach provided an impregnation ratio of 240 mu g of quercetin per g of silica.
I. García-Casas, Christelle Crampon, A. Montes, C. Pereyra, E.J. Martínez de La Ossa, et al.. Supercritical CO2 impregnation of silica microparticles with quercetin. The Journal of Supercritical Fluids, 2019, 143, pp.157-161. 〈hal-01946903〉
Marcello Meldi, L. Djenidi, R. Antonia. Reynolds number effect on the velocity derivative flatness factor. Journal of Fluid Mechanics, Cambridge University Press (CUP), 2018, 856, pp.426-443. 〈hal-01947035〉 Plus de détails...
This paper investigates the effect of a finite Reynolds number (FRN) on the flatness factor (F) of the velocity derivative in decaying homogeneous isotropic turbulence by applying the eddy damped quasi-normal Markovian (EDQNM) method to calculate all terms in an analytic expression for F (Djenidi et al., Phys. Fluids, vol. 29 (5), 2017b, 051702). These terms and hence F become constant when the Taylor microscale Reynolds number, Re A exceeds approximately 10(4). For smaller values of Re-lambda, F, like the skewness -S, increases with ReA; this behaviour is in quantitative agreement with experimental and direct numerical simulation data. These results indicate that one must first ensure that Re-lambda A is large enough for the FRN effect to he negligibly small before the hypotheses of Kolmogorov (Dokl. Akad. Nauk SSSR, vol. 30, 1941a, pp. 301-305; Dokl. Akad. Nauk SSSR, vol. 32, 1941b, pp. 16-18; J. Fluid Mech. vol. 13, 1962, pp. 82-85) can he assessed unambiguously. An obvious implication is that results from experiments and direct numerical simulations for which Re-lambda is well below 10(4) may not he immune from the FRN effect. Another implication is that a power-law increase of with respect to Re-lambda, as suggested by the Kolmogorov 1962 theory, is not tenable when Re-lambda is large enough.
Marcello Meldi, L. Djenidi, R. Antonia. Reynolds number effect on the velocity derivative flatness factor. Journal of Fluid Mechanics, Cambridge University Press (CUP), 2018, 856, pp.426-443. 〈hal-01947035〉
Giorgio Giorgiani, H. Bufferand, G. Ciraolo, P. Ghendrih, Frédéric Schwander, et al.. A hybrid discontinuous Galerkin method for tokamak edge plasma simulations in global realistic geometry. Journal of Computational Physics, Elsevier, 2018, 374, pp.515-532. 〈hal-01946999〉 Plus de détails...
Progressing toward more accurate and more efficient numerical codes for the simulation of transport and turbulence in the edge plasma of tokamaks, we propose in this work a new hybrid discontinuous Galerkin solver. Based on 2D advection-diffusion conservation equations for the ion density and the particle flux in the direction parallel to the magnetic field, the code simulates plasma transport in the poloidal section of tokamaks, including the open field lines of the Scrape-off Layer (SOL) and the closed field lines of the core region. The spatial discretization is based on a high-order hybrid DG scheme on unstructured meshes, which provides an arbitrary high-order accuracy while reducing considerably the number of coupled degrees of freedom with a local condensation process. A discontinuity sensor is employed to identify critical elements and regularize the solution with the introduction of artificial diffusion. Based on a finite-element discretization, not constrained by a flux-aligned mesh, the code is able to describe plasma facing components of any complex shape using Bohm boundary conditions and to simulate the plasma in versatile magnetic equilibria, possibly extended up to the center. Numerical tests using a manufactured solution show appropriate convergence orders when varying independently the number of elements or the degree of interpolation. Validation is performed by benchmarking the code with the well-referenced edge transport code SOLEDGE2D (Bufferand et al., 2013, 2015 [1,2]) in the WEST geometry. Final numerical experiments show the capacity of the code to deal with low-diffusion solutions.
Giorgio Giorgiani, H. Bufferand, G. Ciraolo, P. Ghendrih, Frédéric Schwander, et al.. A hybrid discontinuous Galerkin method for tokamak edge plasma simulations in global realistic geometry. Journal of Computational Physics, Elsevier, 2018, 374, pp.515-532. 〈hal-01946999〉
M.V. Johansson, F. Testa, I. Zaier, P. Perrier, P. Bonnet, et al.. Mass flow rate and permeability measurements in microporous media. Vacuum, Elsevier, 2018, 158, pp.75 - 85. 〈10.1016/j.vacuum.2018.09.030〉. 〈hal-01888007〉 Plus de détails...
M.V. Johansson, F. Testa, I. Zaier, P. Perrier, P. Bonnet, et al.. Mass flow rate and permeability measurements in microporous media. Vacuum, Elsevier, 2018, 158, pp.75 - 85. 〈10.1016/j.vacuum.2018.09.030〉. 〈hal-01888007〉
Lucie Merlier, Jérome Jacob, Pierre Sagaut. Lattice-Boltzmann Large-Eddy Simulation of pollutant dispersion in street canyons including tree planting effects. Atmospheric Environment, Elsevier, 2018, 195, pp.89-103. 〈hal-01946898〉 Plus de détails...
This study assesses the performance of a large eddy simulation (LES) based on the lattice Boltzmann method (LBM) in predicting near field dispersion in street canyons with tree planting. Based on a benchmark test case benefiting from wind tunnel measurements (CODASC), this study qualitatively and quantitatively discusses the prediction of traffic-induced pollutant concentration with respect to several reference studies. It also analyses the physics of the flow and concentration fields. Although the problem might seem rather simple, the flow is highlighted to be strongly three dimensional and transient. These properties enhance pollutant dispersion in the empty street canyon but air flow velocity and turbulence intensity tend to decrease in tree crowns. This effect of trees increases both mean and peak concentration levels at pedestrian level, which may be problematic in cities with dense traffic. These results show that LBM-LES is particularly well suited to study dispersion problems towards the development of more breathable cities.
Lucie Merlier, Jérome Jacob, Pierre Sagaut. Lattice-Boltzmann Large-Eddy Simulation of pollutant dispersion in street canyons including tree planting effects. Atmospheric Environment, Elsevier, 2018, 195, pp.89-103. 〈hal-01946898〉
Jérôme Jacob, Orestis Malaspinas, Pierre Sagaut. A new hybrid recursive regularised Bhatnagar–Gross–Krook collision model for Lattice Boltzmann method-based large eddy simulation. Journal of Turbulence, Taylor & Francis, 2018, pp.1 - 26. 〈10.1080/14685248.2018.1540879〉. 〈hal-01937009〉 Plus de détails...
Jérôme Jacob, Orestis Malaspinas, Pierre Sagaut. A new hybrid recursive regularised Bhatnagar–Gross–Krook collision model for Lattice Boltzmann method-based large eddy simulation. Journal of Turbulence, Taylor & Francis, 2018, pp.1 - 26. 〈10.1080/14685248.2018.1540879〉. 〈hal-01937009〉
Marine Minière, Olivier Boutin, Audrey Soric. Evaluation of degradation and kinetics parameters of acid orange 7 through wet air oxidation process. The Canadian Journal of Chemical Engineering, 2018, 96 (11), pp.2450-2454. 〈hal-01947025〉 Plus de détails...
Among the industrial effluents presenting constraints to traditional biological treatments, those from textile industries are of particular concern. Wet air oxidation is an effective process that significantly increases biodegradability of the treated effluent. In this study, the advantage of this process was tested for the treatment of acid orange 7, a dye molecule used as a model textile effluent. Different experimental conditions of temperature (200 to 300 degrees C) and duration of treatment were used to determine its degradation yield during the wet air oxidation process, at a total pressure of 30MPa. All these conditions led to complete degradation of acid orange 7, but residual Total Organic Carbon always remained. Oxidation byproducts were identified by the means of GC and HPLC analyses. Acetic acid remains the major compound not oxidized. These experiments resulted in the proposal of a reaction scheme associated with kinetic constants. Finally, the optimal conditions for the improvement of the biodegradability of the effluent were determined. This wet air oxidation process could then be coupled with a biological treatment to obtain an overall degradation meeting the criteria for release into the environment.
Marine Minière, Olivier Boutin, Audrey Soric. Evaluation of degradation and kinetics parameters of acid orange 7 through wet air oxidation process. The Canadian Journal of Chemical Engineering, 2018, 96 (11), pp.2450-2454. 〈hal-01947025〉
Journal: The Canadian Journal of Chemical Engineering
C. Leonard, Jean-Henry Ferrasse, Olivier Boutin, S. Lefèvre, S. Viand. Measurements and correlations for gas liquid surface tension at high pressure and high temperature. AIChE Journal, Wiley, 2018, 64 (11), pp.4110-4117. 〈hal-01947031〉 Plus de détails...
Surface tension of water/nitrogen and water-phenol/nitrogen systems was successfully measured by the hanging drop method in a wide domain of temperature (from 100 to 300 degrees C) and pressure (from 4 to 30 MPa), conditions little explored in litterature. Results show that surface tension of water-phenol mixtures decreases as phenol mass fraction increases. This decrease is observed under saturated and unsaturated conditions and is more pronounced at low temperatures and does not seem to depend on pressure. The effect of saturation on surface tension in the water/nitrogen system has been correlated with water vapor pressure by using experimental points with a great accuracy. For the water-phenol/nitrogen system, experimental data obtained with different mass fraction of phenol were correlated using Macleod-Sugden equation for mixtures.
C. Leonard, Jean-Henry Ferrasse, Olivier Boutin, S. Lefèvre, S. Viand. Measurements and correlations for gas liquid surface tension at high pressure and high temperature. AIChE Journal, Wiley, 2018, 64 (11), pp.4110-4117. 〈hal-01947031〉
S. Bhattacharjee, G. Ricciardi, Stéphane Viazzo. LES in a Concentric Annular Pipe: Analysis of Mesh Sensitivity and Wall Pressure Fluctuations. DIRECT AND LARGE-EDDY SIMULATION X (10th ERCOFTAC Workshop on Direct and Large Eddy Simulation (DLES)), 24, Springer, pp.93-100, 2018, ERCOFTAC Series. 〈hal-01946986〉 Plus de détails...
S. Bhattacharjee, G. Ricciardi, Stéphane Viazzo. LES in a Concentric Annular Pipe: Analysis of Mesh Sensitivity and Wall Pressure Fluctuations. DIRECT AND LARGE-EDDY SIMULATION X (10th ERCOFTAC Workshop on Direct and Large Eddy Simulation (DLES)), 24, Springer, pp.93-100, 2018, ERCOFTAC Series. 〈hal-01946986〉
