H. Abe, H. Kawamura, and Y. Matsuo, Direct numerical simulation of a fully developed turbulent channel flow with respect to Reynolds number dependence, ASME J. Fluids Eng, vol.123, pp.382-393, 2001.

R. J. Adrian, K. T. Christensen, and Z. C. Liu, Analysis and interpretation of instanious turbuelent velocity fields, Experiments in Fluids, vol.29, issue.3, pp.275-290, 2000.

B. Arcen, Etudes par simulation numérique directe du comportement et de la dispersion de particules solides en écoulement non homogène isotherme ou anisotherme, 2006.

B. Arcen, A. Tanière, and B. Oesterle, On the influence of near-wall forces in particle-laden channel flows, Int. J. Multiphase flow, vol.23, p.1326, 2006.

S. Balachandar and J. K. Eaton, Turbulent Dispersed Multiphase Flow, Annu. Rev. Fluid Mech, vol.42, pp.111-133, 2010.

V. Chagras, Simulation Eulérienne-lagrangienne d'écoulement gaz-solide non isothermes: intéraction particules-turbulence, application aux écoulements en conduite, 2004.

P. Chassaing, Turbulence en mécanique des fluides (analyse du phénomène en vue de sa modélisation à l'usage de l'ingénieur), 2000.

R. Chhabra, L. Agarwal, and N. Sinha, Drag on non-spherical particles: an evaluation of available methods, Powder Technology, vol.101, pp.288-295, 1999.

M. Chrust, G. Bouchet, and J. Dusek, Numerical simulation of the dynamics of freely falling discs, Phys. Fluids, p.44102, 2013.
URL : https://hal.archives-ouvertes.fr/hal-01446961

G. Comte-bellot, Ecoulement turbulent entre deux plaques planes parallèles, p.149, 1965.

E. R. Corino and R. S. Brodkey, A visual investigation of the wall region in turbuelent flow, vol.37, pp.1-30, 1969.

G. T. Csanady, Turbuelent diffusion of heavy particles in atmosphere, J. Atmos. Sci, vol.20, pp.201-208, 1963.

S. Dearing, M. Compolo, A. Capone, and A. Soldati, Phase discrimination and object fittig to measure fibers distribution and orientation in turbulent pipe flows, Exp. Fluids, vol.54, pp.1-14, 2012.

J. C. De?alamo and ,. J. Ji?enez, Spectra of the very large anisotropic scales in turbulent channels, Phys. Fluids, vol.15, pp.41-43, 2003.

S. C. Denis, S. N. Singh, and D. B. Ingham, The steady flow due to a rotation sphere at low and modarate Reynolds numbers, J.Fluid Mech, vol.101, pp.257-279, 1990.

E. Deutsch, Dispersion de particules dans une turbulence homogène isotrope stationnaire calculée par simulation numérique directe des grandes échelles, 1992.

H. Eckerlmann, The structure of the viscous sublayer and adjacent wall region in a turbulent channel flow, J. Fluid Mech, vol.65, pp.439-459, 1974.

S. Elghobashi, On predicting particle-laden turbulent flow, Appl. Sci. Res, vol.52, pp.309-329, 1994.

M. Fantoni, Dynamics of ellipsoidal particles dispersed in channel flow turbulence, 2008.

J. Feng, H. H. Hu, and D. D. Joseph, Direct simulation of initial value problems for the motion of solid dodies in a Niewtonian fluid. Part 2. Couette and Poiseuille flows, J. Fluid Mech, vol.277, pp.271-301, 1994.

G. Ganser, A rational approach to drag prediction of spherical and non-spherical particles, Powder Technology, vol.77, issue.2, pp.143-152, 1993.

R. Gatignol, The Faxen formulae for rigid particle in an unsteady non-uniform Stokes flow, J.Mec.Théor.Appl, vol.1, pp.143-160, 1983.

H. Abe, H. Kawamura, H. Matsuo, and Y. , Direct numerical simulation of a fully developed turbulent channel flow with respect to Reynolds number dependence, ASME J. Fluids Eng, vol.123, pp.382-393, 2001.

A. Haider and O. Levenspiel, Drag coefficient and terminal velocity of spherical and nonspherical particles, Powder Technology, vol.58, pp.63-70, 1989.

J. Happel and H. Brenner, Low Reynolds Number Hydrodynamics, 1965.

S. Hoerner, Fluid Dynamic Drag, 1965.

A. Holzer and M. Sommerfeld, New simple correlation formula for the drag coefficient of non spherical particles, Powder Technology, vol.184, pp.361-365, 2008.

A. Hölzer and M. Sommerfeld, Lattice Boltzmann simulations to determine drag, lift and torque acting on non-spherical particles, Computers & Fluids, vol.38, pp.572-589, 2009.

S. Hoyas and J. Jiménez, Scaling of the velocity fluct uations in turbulent channels up to Re ? =, Phys. Fluids, vol.18, p.11702, 2003.

G. Jeffery, The Motion of Ellipsoidal Particles Immersed in a Viscous Fluid, Proc. R. Soc, vol.102, pp.161-179, 1922.

T. A. Johnson and V. C. Patel, Flow past sphere up to a Reynolds number of 300, J. Fluid Mech, vol.378, pp.19-70, 1999.

D. Kaftori, G. Hestroni, and S. Banerjee, The effect of particles on wall turbulence, Int.J. Multiphase Flow, vol.24, p.3, 1998.

A. Karnis, H. L. Goldsmit, and S. G. Mason, Flow of Suspensions through Tubes .V. Inertial Effects, Canadian Journal of Chemical Engineering, vol.44, issue.4, p.181, 1966.

A. Karnis, S. G. Mason, and H. L. Goldsmith, Axial Migration of Particles in Poiseuille Flow, Nature, vol.200, issue.490, p.159, 1963.

J. Kim, P. Moin, and R. Moser, Turbulence statistic s in fully developed channel flow at low Reynolds number, J. Fluid Mech, vol.177, pp.133-166, 1987.

N. Kishor and S. Gu, Momentum and heat transfer phenomena of spheroid particles at moderate Reynolds and Prandtl numbers, Int. J. Mass and heat Ttransfert, vol.54, pp.2595-2601, 2011.

S. J. Kline, W. C. Reynolds, F. A. Schraub, and P. W. Runstadler, The structure of turbulent boundary layer, J. Fuild Mech, vol.30, pp.25-30, 1967.

M. Kozuka, Y. Seki, and H. Kawamura, Direct numerical simulation of turbulent heat transfer with a high spatial resolution, Int. J. Heat Fluid Flow, vol.30, pp.514-524, 2009.

R. Kristpfferson and H. I. Andersson, Direct simulations of low-Reynolds-number turbulent flow in a rotating channel, J. Fluid Mech, vol.256, pp.163-197, 1993.

J. D. Kulick, J. R. Fessler, and J. Eaton, Particle response and turbulence modification in fully develloped channel flow, J. Fluid Mech, vol.227, pp.109-134, 1994.

J. D. Kulick, J. R. Fessler, and J. K. Eaton, Particle response and turbulence modification in fully deveoped channel flow, J. Fluid Mech, vol.227, pp.109-134, 1994.

M. Lee and R. D. Moser, Direct numerical simulation of turbulent channel flow up to Re??5200, J. Fluid Mech, vol.774, pp.395-415, 2015.
DOI : 10.1017/jfm.2015.268

M. Lesieur, P. Compte, Y. Fouillet, and A. Neto, Three dimensional numerical simulations of coherent structures in free-shear flows. NATO-ARW "conference on The Global geomary of turbulence, 1990.

T. Li, S. Li, J. Zhao, . Lu, and M. Lingyi, Sphericities of non-spherical objects, Particuology, vol.10, issue.1, pp.97-104, 2012.
DOI : 10.1016/j.partic.2011.07.005

Y. Li, J. B. Mclaughlin, K. Kontomaris, and L. Portela, Numerical simulation of particleladen turbulent channel flow, vol.13, p.2957, 2001.

A. Lozano-duran, Effect of the computational domain on direct simulations of turbulent channels up to Re? = 4200, Physics of fluid, vol.26, p.11702, 2014.

J. L. Lumley, Drag reduction by addives, Annu. Rev Fluid Mech, vol.1, p.367, 1969.

M. Kozuka, M. Seki, Y. Kawamura, and H. , Direct numerical simulation of turbulent heat transfer with a high spatialresolution), Int. J. Heat Fluid Flow, vol.30, pp.514-524, 2009.

E. Machaelides, The transition equation of motion for particles, bubbles and droplets, J.Fluid Eng, vol.119, pp.223-247, 1997.

E. K. Marchildon, A. Clamen, and W. H. Gauvin, Drag+oscillatory motion of freely falling cylidrical particles, Canadian Journal of Chemical Eengineering, vol.42, issue.4, p.178, 1964.
DOI : 10.1002/cjce.5450420410

C. Marchioli and A. Soldati, Mechanisms of particle transfert segregation in turbulent boundary layer, J. Fluid Mech, vol.468, pp.283-315, 2002.

C. Marchioli and A. Soldati, Rotation statistics of fibers in wall shear turbulence, Acta Mech, vol.224, pp.2311-2329, 2013.
DOI : 10.1007/s00707-013-0933-z

C. Marchioli, M. Fantoni, and A. Soldati, Orientation, distribution and deposition of elongated, inertial fibers in turbulent channel flow, Phys. Fluids, p.33301, 2010.

C. Marchioli, M. Picciotto, and A. Soldati, Particle dispesion and wall-dependant turbulent flow scales. Implications for local equilibrium models, J. Turbul, vol.7, p.60, 2006.

C. Marchioli, A. Soldati, J. G. Kuerten, B. Arcen, A. Tanière et al., Statistics of particle dispesion in direct numerical simulations of wall-bounded turbulence. Results of international collaborative benchmark test, J. Multiphase flow, vol.34, pp.879-893, 2008.

J. H. Masliayh and N. Epstein, Numerical study of steady flow past spheroids, J. Fluid Mechanics, vol.44, pp.493-512, 1970.

M. Maxey, The gravitational setteling of aerosol particles in homogenous turbulence an random flow fields, J. Fluid Mech, vol.174, pp.441-467, 1987.

M. Maxey and J. Riley, Equation of motion for small grid spherein non uniform flow, Physics of Fluids, vol.26, issue.4, pp.883-889, 1983.

J. Militzer, J. Kan, F. Hamdullahpur, P. Amyotte, and A. Taweel, Drag coefficient for axisymmetric flow around individual sphéroidal particles, Powder Technology, vol.57, pp.193-195, 1989.
DOI : 10.1016/0032-5910(89)80075-0

P. Moin and J. Kim, Numerical investigation of turbulent channel flow, J. Fluid Mech, vol.118, pp.341-377, 1982.

S. A. Morsi and A. J. Alexander, An investigation of particle trajectories in two-phase flow systems, J. Fluid Mechanics, vol.55, pp.193-208, 1972.

P. H. Mortensen, H. I. Andersson, J. J. Gillissen, and B. J. Boersma, Particle spin in turbulent channel flow, Phys. Fluids, vol.19, p.78109, 2007.

P. H. Mortensen, H. I. Andersson, J. J. Gillissen, and B. J. Boersma, Dynamics of prolate ellipsoidal particles in a turbulent channel flow, Physics of Fluids, vol.20, p.93302, 2008.

R. D. Moser, J. Kim, and N. Mansour, Direct numerical simulation of turbuelnt channel flow in channel up to Re=590, Phys. Fluids, vol.11, issue.4, pp.943-945, 1999.

M. Niedrschutlte, R. Adiran, and T. J. Hanratty, Mesurements of turbulent flow in a channel at low Reynolds numbers, Exp. in Fluids, vol.9, pp.222-230, 1990.

A. Oberbeek, Ueber stationäre Flüssigkeitsbewegungen mit Berücksichtigung, J Reine Angew Math, vol.81, pp.62-80, 1876.

B. Oesterlé and T. Bui-dinh, Experiments on the lift of spanning sphere in a range of intermediate Reynolds numbers, Exp.fluids, vol.25, pp.16-22, 1998.

R. Ouchene, A. Chadil, M. Khalij, P. Fede, S. Vincent et al.,

B. Arcen, Numerical simulation and modeling of forces acting on single and multiple non-spherical particles, 11th International Conference on Nanochannels, Microchannels and minichannels, ASME-FEDSM2014, pp.2014-22244, 2014.

R. Ouchène, M. Khalij, A. Tanière, and B. Arcen, drag lift and torque coefficients of the ellipsoidal particles, 2013.

R. Ouchene, M. Khalij, A. Taniere, and B. Arcen, Drag, lift and torque coefficients for ellipsoidal particles: from low to moderate particle Reynolds numbers, Computers & fluids, vol.113, pp.53-64, 2015.
DOI : 10.1016/j.compfluid.2014.12.005

URL : https://hal.archives-ouvertes.fr/hal-01266995

S. Pedinotti, G. Mariotti, and S. Banerjee, Direct numerical simulation of particle behaviour in the wall region of turbulent flows in horizontal channels, Int. J. Multiphase Flow, vol.18, pp.927-941, 1992.

Q. I. , D. Luo, and L. , Transitions in rotations of nonspherical particle in three-dimentional moderate Reynolds number Couette flow, Phys. Fluids, vol.14, pp.4440-4443, 2002.

P. Rambaud, Contribution à l'étude du comportement de particules solides en écoulement turbulent confiné par simulation numérique directe, 2001.

L. Rayleigh, On the resistance of fluid, Philosophical magazine Series, vol.5, issue.2, pp.430-441, 1976.

A. Richter and P. Nikrityuk, Drag forces and heat transfer coefficients for spherical, cuboidal and ellipsoidal particles in cross flow at sub-critical Reynolds numbers, International Journal of Heat and Mass Transfer, vol.55, pp.1343-1354, 2012.
DOI : 10.1016/j.ijheatmasstransfer.2011.09.005

A. Richter and P. Nikrityuk, New correlation for heat and fluid flow past ellipsoidal and cubic particles as different angles of attack, Powder Technology, vol.249, pp.463-474, 2013.
DOI : 10.1016/j.powtec.2013.08.044

S. K. Robinson, The kinamatics of turbulent boundary layer structure. NASA, p.103859, 1991.

L. Rosendahl, Using a multi-parameter particle shape description to predict the motion of non-spherical particle shapes in swirling flow, Appl. Mathematical Modelling, vol.24, pp.11-25, 2000.

S. I. Rubinow and J. B. Keller, The transverse force on spinning sphere moving in a viscous fluid, J. Fluid Mech, vol.55, pp.447-459, 1961.

L. Schiller and A. Naumann, Fundamental calculations in gravitational processing, Zeitschrift Des Vereines Deutscher Ingenieure, vol.77, pp.318-320, 1935.

W. Schoppa and F. Hussain, Coherent structure dynamics in near wall turbulence, Fluid Dynamics Research, vol.26, issue.2, pp.119-139, 2000.

M. Shapiro and M. Goldenberg, Deposition of glass fiber particles from turbulent air flow in a pipe, J. Aerosol Sci, vol.24, pp.65-87, 1993.

M. Soltani and G. Ahmadi, Direct numerical simulation of particle entrainement in turbulent channel flow, Physic of Fluids, vol.7, pp.647-657, 1995.

H. Sørensen, L. Rosendahl, C. Yin, and M. Mando, Settling of a cylindrical particle in a stagnant fluid, Proceedings of the 6th International Conference on Multiphase Flow, 2007.

G. Stokes, On the effect of the internal friction of fluids on the motion pendulums, 1851.

, Cambridge Philos Trans, vol.9, pp.8-106, 1851.

G. E. Stringham, D. B. Simons, and H. P. Guy, The behavior of large particles falling in quiescent liquids, Geol. Surv. Prof. Paper, vol.562, p.36, 1969.

H. Tennekes and J. L. Lumley, A first course in turbulent, 1972.

T. Theodorsen, In mechanism of turbulence, Proc. of 2nd Midwestern Conf. on fluid Mech, 1952.

M. W. Vance, K. D. Squires, and O. Simonin, Properties of the particle velocity field in gassolid turbulent channel flow, Phys. Fluids, vol.18, p.63302, 2006.

I. Vinkovic, C. Aguirra, M. Ayrault, and S. Simoens, Large eddy simulation of the dispersion of solid particles and droplets in a turbulent boundary layer flow, Eng. Turbul. Modelling experiments, vol.6, pp.969-978, 2005.

A. W. Vreman and J. M. Kuerten, Comparison of direct numerical simulation databases of turbulent channel flow at Re ? = 180, PHYSICS OF FLUIDS, vol.26, p.15102, 2014.

H. Wadell, The coefficient of resistance as a function of Reynolds number for solids of varous shapes, Journal of the Franklin Institute, vol.217, pp.459-490, 1934.

Q. Wang and K. D. Squires, Large Eddy Simulation of particle-laden turbulent channel flow, Phys Fluids, vol.8, issue.5, pp.1207-1223, 1996.

M. R. Wells and D. E. Stock, he Effects of Crossing Trajectories on the Dispersion of Particles in a Turbulent Flow, J. Fluid. Mech, vol.136, pp.31-61, 1983.

Y. Yamamoto, M. Potthoff, T. Tanaka, T. Kajishima, and Y. Tsuji, Large-eddy simulation of turbulent gasparticle flow in a vertical channel: effect of considering inter-particle collisions, J. Fluid Mech, vol.442, pp.303-334, 2001.

C. G. Yin and R. L. , Modelling the motion of cylindrical particles in a non uniform flow, Chem Eng Science, vol.58, issue.15, pp.3489-3498, 2003.

H. N. Yow, A. Salman, and M. J. Pitt, Drag correlations for particles of regular shape

H. Yow, A. Salman, and M. Pitt, Drag correlations for particles of regular shape, Powder Technology, vol.16, issue.4, pp.363-372, 2005.

M. I. Yudine, Physical considerations on heavy-particle dispersion, Adv. Geophys, vol.6, pp.185-191, 1959.