kw.\*:("TURBULENT FRICTION")
Results 1 to 25 of 33
Selection :
VERGLEICHENDE UNTERSUCHUNGEN VON 2-PARAMETER-MODELLEN DER TURBULENTEN REIBUNG. = ETUDE COMPARATIVE DES MODELES A 2 PARAMETRES DU FROTTEMENT TURBULENTHANEL B; MASCHECK HJ.1976; LUFT- U. KAELTETECH.; DTSCH.; DA. 1976; VOL. 12; NO 3; PP. 121-125; ABS. ANGL.; BIBL. 37 REF.Article
AN IMPROVEMENT IN THE CALCULATION OF TURBULENT FRICTION IN RECTANGULAR DUCTS. = PERFECTIONNEMENT DU CALCUL DU FROTTEMENT TURBULENT DANS LES CONDUITS RECTANGULAIRESJONES OC JR.1976; J. FLUIDS ENGNG; U.S.A.; DA. 1976; VOL. 98; NO 2; PP. 173-181; BIBL. 30 REF.Article
ETUDE EXPERIMENTALE DES CARACTERISTIQUES DU FROTTEMENT TURBULENT DANS LE CAS DE VITESSES TRANSSONIQUESIVANOV AI; KHON'KIN AD; SHAPOVALOV GK et al.1982; INZ.-FIZ. Z.; ISSN 0021-0285; BYS; DA. 1982; VOL. 43; NO 1; PP. 25-31; ABS. ENG; BIBL. 10 REF.Article
MECANISME DE L'EFFET TOMSGRIGORYAN SS; DAMASKIN BB; STENINA EV et al.1979; DOKL. AKAD. NAUK SSSR; ISSN 0002-3264; SUN; DA. 1979; VOL. 248; NO 5; PP. 1074-1076; BIBL. 10 REF.Article
Transient turbulent friction in long pipesLETELIER, S; SHUY, E. B; LEUTHEUSSER, H. J et al.Zeitschrift für angewandte Mathematik und Mechanik. 1998, Vol 78, pp S585-S586, issn 0044-2267, SUP2Conference Paper
On the nonlinear dynamics of the boundary layer of intense atmospheric vortexINGEL, Lev Kh.Dynamics of atmospheres and oceans. 2005, Vol 40, Num 4, pp 295-304, issn 0377-0265, 10 p.Article
A method of correlating fully developed turbulent friction in triangular ductsNAN, S. F; DOU, M.Journal of fluids engineering. 2000, Vol 122, Num 3, pp 634-636, issn 0098-2202Article
REPARTITION DE LA VITESSE ET DE LA TENSION DE FROTTEMENT DANS UNE COUCHE LIMITE TURBULENTE, SUR UNE PLAQUE POREUSEREKIN AD.1976; INZHENER.-FIZ. ZH., BELORUS. S.S.R.; S.S.S.R.; DA. 1976; VOL. 30; NO 6; PP. 1009-1016; ABS. ANGL.; BIBL. 17 REF.Article
RESISTANCE DANS L'ECOULEMENT TURBULENT D'UNE PELLICULE LIQUIDE ET D'UN GAZ DANS DES TUYAUX VERTICAUXFEDOTKIN IM; CHEPURNOJ MN; SHNAJDER V EH et al.1976; INZHENER.-FIZ. ZH., BELORUS. S.S.R.; S.S.S.R.; DA. 1976; VOL. 30; NO 6; PP. 1035-1039; ABS. ANGL.; BIBL. 4 REF.Article
Theory of turbulent shear flow. II, Calculation of coefficient functionPIEST, J.Physica. A. 1990, Vol 168, Num 3, pp 966-982, issn 0378-4371Article
Combined effect of longitudinal riblets and LEBU-devices on turbulent friction on a plateGUDILIN, I. V; LASHKOV, YU. A; SHUMILKIN, V. G et al.Fluid dynamics. 1995, Vol 30, Num 3, pp 366-371, issn 0015-4628Article
Calculation of turbulent friction and heat exchange using a modified model of surface renewalZUDIN, YU. B.High temperature. 1993, Vol 31, Num 4, pp 710-716, issn 0018-151XArticle
An investigation of possible mechanisms of heterogeneous drag reduction in pipe and channel flowsBEWERSDORFF, H.-W; GYR, A; HOYER, K et al.Rheologica acta. 1993, Vol 32, Num 2, pp 140-149, issn 0035-4511Article
Turbulent friction factor for two-phase : Air-viscoelastic flows through a horizontal tubeRAO, B. K.International journal of heat and fluid flow. 1997, Vol 18, Num 6, pp 559-566, issn 0142-727XArticle
Effect of longitudinal riblets on axisymmetric body dragKONOVALOV, S. F; LASHKOV, YU. A; MIKHAILOV, V. V et al.Fluid dynamics. 1992, Vol 27, Num 2, pp 285-288, issn 0015-4628Article
A phenomenological model to describe turbulent friction in permeable-wall flowsMANES, C; RIDOLFI, L; KATUL, G et al.Geophysical research letters. 2012, Vol 39, Num 14, issn 0094-8276, L14403.1-L14403.5Article
W solutions of the CW equation for flow frictionBRKIC, Dejan.Applied mathematics letters. 2011, Vol 24, Num 8, pp 1379-1383, issn 0893-9659, 5 p.Article
Accurate calculation of friction in tubes, channels, and oscillatory flow : A unified formulationGIMDNEZ-CURTO, Luis A; COMIERO, Miguel A.Journal of geophysical research. 2007, Vol 112, Num C2, issn 0148-0227, C02007.1-C02007.14Article
Simulation of the thermal method for reducing turbulent frictionKURYACHII, A. P.Fluid dynamics. 1998, Vol 33, Num 1, pp 48-55, issn 0015-4628Article
Experimental study of the effect of riblets and LEBU-devices on the drag of a body of revolutionGUDILIN, I. V; LASHKOV, YU. A; SHUMILKIN, V. G et al.Fluid dynamics. 1996, Vol 31, Num 3, pp 467-469, issn 0015-4628Article
Towards a consistent numerical compressible non-hydrostatic model using generalized Hamiltonian toolsGASSMANN, Almut; HERZOG, Hans-Joachim.Quarterly Journal of the Royal Meteorological Society. 2008, Vol 134, Num 635, pp 1597-1613, issn 0035-9009, 17 p.Article
Enhanced cold front propagation due to turbulent mixingBECKER, A; KEULER, K; EWENZ, C. M et al.Meteorology and atmospheric physics (Print). 1997, Vol 62, Num 3-4, pp 201-214, issn 0177-7971Article
Frontal substructures within the planetary boundary layerBECKER, A; KRAUS, H; EWENZ, C. M et al.Boundary - layer meteorology. 1996, Vol 78, Num 1-2, pp 165-190, issn 0006-8314Article
Contribution théorique et expérimentale à l'étude aérodynamique et aéroacoustique d'une césure d'un prototype de véhicule ferroviaire = Theorical and experimental contribution to aeroacoustic and aerodynamic study of train cavityTeissier, Jean-Luc; Guibergia, J.-P.1994, 237 p.Thesis
Turbulent friction factor correlations for power law fluids in circular and non-circular channelsHARTNETT, J. P; KOSTIC, M.International communications in heat and mass transfer. 1990, Vol 17, Num 1, pp 59-65, issn 0735-1933Article