Nozzle wear during the flow of a gas-particle mixtureKUMAR, R; VERMA, A. P; LAL, G. K et al.Wear. 1983, Vol 91, Num 1, pp 33-43, issn 0043-1648Article

A study of particle rebounding characteristics of a gas-particle flow over a curved wall surfaceTU, J. Y; YEOH, G. H; MORSI, Y. S et al.Aerosol science and technology. 2004, Vol 38, Num 7, pp 739-755, issn 0278-6826, 17 p.Article

Quadrature-Based Moment Model for Moderately Dense Polydisperse Gas-Particle FlowsFOX, Rodney O; VEDULA, Prakash.Industrial & engineering chemistry research. 2010, Vol 49, Num 11, pp 5174-5187, issn 0888-5885, 14 p.Article

A model for the flow of solid particles in gasesMICHAELIDES, E. E.International journal of multiphase flow. 1983, Vol 10, Num 1, pp 61-77, issn 0301-9322Article

Numerical simulation and validation of dilute gas-particle flow over a backward-facing stepTIAN, Z. F; TU, J. Y; YEOH, G. H et al.Aerosol science and technology. 2005, Vol 39, Num 4, pp 319-332, issn 0278-6826, 14 p.Article

Performance assessment of staged-air declination in improving asymmetric gas/particle flow characteristics within a down-fired 600 MW_e supercritical utility boilerMIN KUANG; ZHENGQI LI; QUNYI ZHU et al.Energy (Oxford). 2013, Vol 49, Num 1, pp 423-433, issn 0360-5442, 11 p.Article

Etude des caustiques dans un milieu diphasique gaz-particulesKISELEV, S. P; FOMIN, V. M.Prikladnaâ mehanika i tehničeskaâ fizika. 1987, Num 4, pp 164-170, issn 0869-5032Article

Dimitri Gidaspow: Pioneering Contributor to Computational Gas-Particle Flow and FluidizationLYCZKOWSKI, Robert W; SYAMLAL, Madhava; SUNDARESAN, Sankaran et al.Industrial & engineering chemistry research. 2010, Vol 49, Num 11, pp 5027-5028, issn 0888-5885, 2 p.Article

Dispersion mode of granular jet in a coaxial air jetHAIFENG LIU; WENGUANG CAO; JIANLIANG XU et al.Powder technology. 2012, Vol 217, pp 566-573, issn 0032-5910, 8 p.Article

Gas/particle flow characteristics of two swirl burnersZHICHAO CHEN; ZHENGQI LI; JIANPING JING et al.Energy conversion and management. 2009, Vol 50, Num 5, pp 1180-1191, issn 0196-8904, 12 p.Article

Gas/particle flow characteristics of a centrally fuel rich swirl coal combustion burnerZHICHAO CHEN; ZHENGQI LI; FUQIANG WANG et al.Fuel (Guildford). 2008, Vol 87, Num 10-11, pp 2102-2110, issn 0016-2361, 9 p.Article

Reynolds number dependence of gas-phase turbulence in gas-particle flowsHADINOTO, K; JONES, E. N; YURTERI, C et al.International journal of multiphase flow. 2005, Vol 31, Num 4, pp 416-434, issn 0301-9322, 19 p.Article

Cold experimental investigations into gas/particle flow characteristics of a low-NO_x axial swirl burner in a 600-MWe wall-fired pulverized-coal utility boilerZHENGQI LI; LINGYAN ZENG; GUANGBO ZHAO et al.Experimental thermal and fluid science. 2012, Vol 37, pp 104-112, issn 0894-1777, 9 p.Article

Characterization of the granular jet in a coaxial gas streamHAIFENG LIU; WENGUANG CAO; JIANLIANG XU et al.Powder technology. 2012, Vol 225, pp 206-213, issn 0032-5910, 8 p.Article

The influence of fuel bias in the primary air duct on the gas/particle flow characteristics near the swirl burner regionZHICHAO CHEN; ZHENGQI LI; JIANPING JING et al.Fuel processing technology. 2008, Vol 89, Num 10, pp 958-965, issn 0378-3820, 8 p.Article

Effect of spatial inhomogeneity and temporal fluctuation of particle distributions on interparticle collision rate in particulate flowsCHANGFU YOU; HAILIANG ZHAO; XUCHANG XU et al.Powder technology. 2007, Vol 172, Num 3, pp 188-192, issn 0032-5910, 5 p.Article

DUST PARTICLE TRAJECTORIES IN AIRCRAFT RADIAL TURBINES.CLEVENGER WB; TABAKOFF W.1976; J. AIRCR.; U.S.A.; DA. 1976; VOL. 13; NO 10; PP. 786-791; BIBL. 9 REF.Article

AERODYNAMICS AND DUST EROSION OF LARGE AXIAL FLOW FANS.WALLIS RA.1977; MECH. ENGNG TRANS.; AUSTRAL.; DA. 1977; VOL. 2; PP. 1-6; BIBL. 8 REF.Article

Hydrodynamic modeling of gas-particle flows in D-D calcinersZHENG JIANXIANG; LU HUILIN; SUN XIAOQUAN et al.Industrial & engineering chemistry research. 2005, Vol 44, Num 9, pp 3033-3041, issn 0888-5885, 9 p.Article

Transport simultané de chaleur et de masse vers une particule dans un écoulement gazeux à paramètres variablesPOLYANIN, A. D.Prikladnaâ mehanika i tehničeskaâ fizika. 1984, Num 2, pp 48-58, issn 0869-5032Article

Blade boundary layer effect on turbine erosion and depositionMENGUTURK, M; GUNES, D; MIMAROGLU, H. K et al.Journal of fluids engineering. 1983, Vol 105, Num 3, pp 270-276, issn 0098-2202Article

Erosion pattern of twisted blades by particle laden flowsHAMED, A; FOWLER, S.Journal of engineering for power. 1983, Vol 105, Num 4, pp 839-843, issn 0022-0825Article

Un modèle d'écoulement diphasique = A model for two phase fluid flowBEREUX, F.Comptes rendus de l'Académie des sciences. Série 1, Mathématique. 1993, Vol 317, Num 1, pp 121-124, issn 0764-4442Article

Matrice de traînée d'une particule dans un écoulement gazeux non uniformeBISHAEV, A. M; RYKOV, V. A.Izvestiâ Akademii nauk SSSR. Mehanika židkosti i gaza. 1988, Num 1, pp 101-108, issn 0568-5281Article

Structure de l'onde de choc dans un mélange de gaz et de particules flottantesFEDOROV, A. V; FOMIN, V. M.Prikladnaâ mehanika i tehničeskaâ fizika. 1986, Num 2, pp 133-138, issn 0869-5032Article