kw.\*:("Orifice noyé")
Results 1 to 25 of 127
Selection :
Bubble formation pattern with weeping at a submerged orificeMIYAHARA, T; IWATA, M; TAKAHASHI, T et al.Journal of chemical engineering of Japan. 1984, Vol 17, Num 6, pp 592-597, issn 0021-9592Article
Bubble volume in single bubbling regime with weeping at a submerged orificeMIYAHARA, T; TAKAHASHI, T.Journal of chemical engineering of Japan. 1984, Vol 17, Num 6, pp 597-602, issn 0021-9592Article
Bubble Evolution through a Submerged Orifice Using Smoothed Particle Hydrodynamics: Effect of Different Thermophysical PropertiesDAS, Arup K; DAS, Prasanta K.Industrial & engineering chemistry research. 2009, Vol 48, Num 18, pp 8726-8735, issn 0888-5885, 10 p.Article
Bubble formation at vibrated orifices: medium-chamber-volume regionBAKER, C. T; DE NEVERS, N.AIChE journal. 1984, Vol 30, Num 1, pp 37-44, issn 0001-1541Article
The influence of liquid head and liquid circulation on weeping rates at a submerged orificeWENXING ZHANG; TAN, R. B. H.Chemical engineering & technology. 2003, Vol 26, Num 11, pp 1169-1175, issn 0930-7516, 7 p.Article
A study of bubble formation at a submerged orifice using the boundary element methodHOOPER, A. P.Chemical engineering science. 1986, Vol 41, Num 7, pp 1879-1890, issn 0009-2509Article
ON A MODEL FOR THE FORMATION OF GAS BUBBLES AT A SINGLE SUBMERGED ORIFICE UNDER CONSTANT PRESSURE CONDITIONSLA NAUZE RD; HARRIS IJ.1972; CHEM. ENGNG SCI.; G.B.; DA. 1972; VOL. 27; NO 11; PP. 2102-2105; BIBL. 6 REF.Serial Issue
EFFECT OF ORIFICE GEOMETRY ON BUBBLE FORMATION UNDER CONSTANT PRESSURE CONDITIONSSATYANARAYAN A.1974; J. INSTIT. ENGRS (INDIA), CHEM. ENGNG DIV.; INDIA; DA. 1974; VOL. 54; NO 3; PP. 41-47; BIBL. 9 REF.Article
Bubble formation at a puncture in a submerged rubber membraneRICE, R. G; LAKHANI, N. B.Chemical engineering communications (Print). 1983, Vol 24, Num 4-6, pp 215-234, issn 0098-6445Article
Bubble formation form an orifice submerged in liquidTSUGE, H; HIBINO, S.-I.Chemical engineering communications (Print). 1983, Vol 22, Num 1-2, pp 63-79, issn 0098-6445Article
A model for non-spherical bubble growth at a single orificeTAN, R. B; HARRIS, I. J.Chemical engineering science. 1986, Vol 41, Num 12, pp 3175-3182, issn 0009-2509Article
Transition from bubbling to jetting at single orificesMIYAHARA, T; TERAKADO, H; TAKAHASHI, T et al.Journal of chemical engineering of Japan. 1983, Vol 16, Num 6, pp 454-458, issn 0021-9592Article
Computational investigation on bubble detachment from submerged orifice in quiescent liquid under normal and reduced gravityCHAKRABORTY, I; RAY, B; BISWAS, G et al.Physics of fluids (1994). 2009, Vol 21, Num 6, issn 1070-6631, 062103.1-062103.12Article
DROP FORMATION AT SIEVE PLATE DISTRIBUTORSARADHY YP; RAJINDER KUMAR.1976; INDUSTR. ENGNG CHEM., PROCESS DESIGN DEVELOP.; U.S.A.; DA. 1976; VOL. 15; NO 1; PP. 75-82; BIBL. 14 REF.Article
THE TRANSITION FROM JETTING TO BUBBLING AT A SUBMERGED ORIFICEPAYNE GJ; PRINCE RGH.1975; TRANS. INSTIT. CHEM. ENGRS; G.B.; DA. 1975; VOL. 53; NO 4; PP. 209-223; BIBL. 21 REF.Article
THE CHAMBER ORIFICE INTERACTION IN THE FORMATION OF BUBBLES.PARK Y; TYLER AL; DE NEVERS N et al.1977; CHEM. ENGNG SCI.; G.B.; DA. 1977; VOL. 32; NO 8; PP. 907-916; BIBL. 8 REF.Article
GAZ BUBBLE FORMATION FROM SUBMERGED ORIFICES - "SIMULTANEOUS BUBBLING" FROM TWO ORIFICESTITOMANLIO G; RIZZO G; ACIERNO D et al.1976; CHEM. ENGNG SCI.; G.B.; DA. 1976; VOL. 31; NO 5; PP. 403-404; BIBL. 11 REF.Article
A THEORETICAL MODEL FOR BUBBLE FORMATION AT AN ORIFICE SUBMERGED IN AN INVISCID LIQUIDMARMUR A; RUBIN E.1976; CHEM. ENGNG SCI.; G.B.; DA. 1976; VOL. 31; NO 6; PP. 453-463; BIBL. 19 REF.Article
Quasi-static bubble formation on submerged orificesGERLACH, D; BISWAS, G; DURST, F et al.International journal of heat and mass transfer. 2005, Vol 48, Num 2, pp 425-438, issn 0017-9310, 14 p.Article
Use of variable orifice Duckbill valves for hydraulic and dilution optimization of multiport diffusersDUER, M. J.Water science and technology. 1998, pp 277-284, issn 0273-1223, isbn 0-08-043396-0Conference Paper
A note on the formation and rise of a bubble from a submerged nozzle, including effects of bulk- and surface-dilatational viscosityKEEN, G. S; BLAKE, J. R.Journal of colloid and interface science. 1996, Vol 180, Num 2, pp 625-628, issn 0021-9797Article
A SIMPLE METHOD FOR IDENTIFYING BUBBLING/JETTING REGIMES TRANSITION FROM LARGE SUBMERGED ORIFICES USING ELECTRICAL CAPACITANCE TOMOGRAPHY (ECT)QINGBAI CAI; XUESONG SHEN; CHUNYIN SHEN et al.Canadian journal of chemical engineering. 2010, Vol 88, Num 3, pp 340-349, issn 0008-4034, 10 p.Article
Comparison of experimental results and numerical predictions of drop diameter from a single submerged nozzle in a liquid-liquid systemHAMAD, Faik A; KHAN, Mohammed K; PIERSCIONEK, Barbara K et al.Canadian journal of chemical engineering. 2001, Vol 79, Num 3, pp 322-328, issn 0008-4034Article
Preliminary sizing of detention reservoirs to reduce peak dischargesMCENROE, B. M.Journal of hydraulic engineering (New York, N.Y.). 1992, Vol 118, Num 11, pp 1540-1549, issn 0733-9429Article
Bubble formation at a single orifice in non-newtonian liquidsTERASAKA, K; TSUGE, H.Chemical engineering science. 1991, Vol 46, Num 1, pp 85-93, issn 0009-2509, 9 p.Article
