kw.\*:("Cuba electrolítica")
Results 1 to 25 of 38
Selection :
An embedding method for the numerical solution of the cathode design problem in electrochemical machiningHUNT, R.International journal for numerical methods in engineering. 1990, Vol 29, Num 6, pp 1177-1192, issn 0029-5981Article
Verwendung der zwischenliegenden ferromagnetischen Schirme zwecks der Wiederverteilung des magnetischen Feldes in den Elektrolysewannen = Use of intermediate ferromagnetic screens for the magnetic field redistribution in an electrolytic tankIONESCU, C; POPOVICI, D.Revue roumaine des sciences techniques. Electrotechnique et énergétique. 1991, Vol 36, Num 1, pp 45-52, issn 0035-4066Article
Solid oxide electrolysis cell for decomposition of tritiated waterKONISHI, S; OHNO, H; YOSHIDA, H et al.International journal of hydrogen energy. 1986, Vol 11, Num 8, pp 507-512, issn 0360-3199Article
Stability of interfacial waves in aluminium reduction cellsDAVIDSON, P. A; LINDSAY, R. I.Journal of Fluid Mechanics. 1998, Vol 362, pp 273-295, issn 0022-1120Article
A low-cost electrolytic tiltmeter for measuring slope deformation = Un appareil électrolytique de mesure du basculement de faible coût pour mesurer la déformation des pentesZINBAO ZHANG.ASTM geotechnical testing journal. 1987, Vol 10, Num 2, pp 91-94, issn 0149-6115Article
Production d'écoulements électro-vortex dans des cuves à amenée du courant multiélectrodeDEMENT'EV, S. B; CHAJKOVSKIJ, A. I; CHUDNOVSKIJ, A. YU et al.Magnitnaâ gidrodinamika. 1988, Num 1, pp 85-89, issn 0025-0015Article
Modernization and computerization of the silver-recovery operation in a high-volume laboratoryBAPTISTA, J. L; BUTTRAM, D; ROBERTS, M et al.SMPTE journal (1976). 1987, Vol 96, Num 8, pp 745-749, issn 0036-1682Article
Carbon consumption and current efficiency in hall-héroult cellDESCLAUX, Paul.Metallurgical and materials transactions. B, Process metallurgy and materials processing science. 2001, Vol 32, Num 4, pp 743-744, issn 1073-5615Article
Dissolution study of electrolytically deposited aluminium at a graphite electrodeSUM, E. Y. L; SKYLLAS-KAZACOS, M.Electrochimica acta. 1991, Vol 36, Num 5-6, pp 811-817, issn 0013-4686, 7 p.Article
A thermodynamic and experimental study of the electrochemically induced cooling of the anode in Hall-Héroult cellsØDEGARD, R; JULSRUD, S; SOLHEIM, A et al.Metallurgical transactions. B, Process metallurgy. 1991, Vol 22, Num 6, pp 831-837, issn 0360-2141Article
Resistance due to the presence of bubbles in an electrolytic cell with a grooved anodeCHEN, J. J. J; QIAN, K. X; ZHAO, J. C et al.Chemical engineering research & design. 2001, Vol 79, Num 4, pp 383-388, issn 0263-8762Article
Current efficiency in the Hall-Héroult process for aluminium electrolysis : experimental and modelling studiesSOLLI, P. A; EGGEN, T; SKYBAKMOEN, E et al.Journal of applied electrochemistry. 1997, Vol 27, Num 8, pp 939-946, issn 0021-891XArticle
Reduction of sodium induced stresses in Hall-Heroult cellsØYE, H. A; THONSTAD, J; DAHLQVIST, K et al.Aluminium (Düsseldorf). 1996, Vol 72, Num 12, pp 918-924, issn 0002-6689Article
Numerical solution of a three-dimensional thermoelectric problem taking place in an aluminium electrolytic cellBERMUDEZ, A; MUNIZ, M. C; QUINTELA, P et al.Computer methods in applied mechanics and engineering. 1993, Vol 106, Num 1-2, pp 129-142, issn 0045-7825Article
Modèle mathématique des processus MHD dans un électrolyseur d'aluminiumBOYAREVICH, V.Magnitnaâ gidrodinamika. 1987, Num 1, pp 107-115, issn 0025-0015Article
A new approach to numerical simulation of melt flows and interface instability in Hall-Héroult cellsZIKANOV, Oleg; THESS, Andre; DAVIDSON, P. A et al.Metallurgical and materials transactions. B, Process metallurgy and materials processing science. 2000, Vol 31, Num 6, pp 1541-1550, issn 1073-5615Article
Current distribution in aluminium electrolysis cells with Søderberg anodes. Part I: Experimental study and estimate of anode consumptionKUANG, Z; THONSTAD, J.Journal of applied electrochemistry. 1996, Vol 26, Num 5, pp 481-486, issn 0021-891XArticle
Design and performance of a laboratory cell for determination of current efficiency in the electrowinning of aluminiumSOLLI, P. A; EGGEN, T; ROLSETH, S et al.Journal of applied electrochemistry. 1996, Vol 26, Num 10, pp 1019-1025, issn 0021-891XArticle
Flow-through cell for continual on-line monitoring of cadmium, copper, antimony, and lead by anodic stripping voltammetry in highly dense zinc plant electrolyteBOND, A. M; KNIGHT, R. W; NEWMAN, O. M. G et al.Analytical chemistry (Washington, DC). 1988, Vol 60, Num 21, pp 2445-2448, issn 0003-2700Article
Concept and design of a 3.5 MW pilot plant for high temperature electrolysis of water vaporQUANDT, K. H; STRECHER, R.International journal of hydrogen energy. 1986, Vol 11, Num 5, pp 309-315, issn 0360-3199Article
Nickel ferrite as inert anodes in aluminium electrolysis : Part I. Material fabrication and preliminary testingOLSEN, E; THONSTAD, J.Journal of applied electrochemistry. 1999, Vol 29, Num 3, pp 293-299, issn 0021-891XArticle
Measurement of electronic conduction in cryolite alumina melts and estimation of its effect on current efficiencyHAARBERG, G. M; OSEN, K. S; THONSTAD, J et al.Metallurgical transactions. B, Process metallurgy. 1993, Vol 24, Num 5, pp 729-735, issn 0360-2141Article
Stability of metal/electrolyte interface in Hall-Héroult cells: effect of the steady velocityZIEGLER, D. P.Metallurgical transactions. B, Process metallurgy. 1993, Vol 24, Num 5, pp 899-906, issn 0360-2141Article
Conduite automatisée du procédé d'électrolyse de l'aluminium = Automatic driving of aluminium electrolysis processLANGON, B; MACAUDIERE, Y.Conduite des processus thermiques industriels. Colloque. 1988, pp 133-152, 19 p.Conference Paper
Penetration and chemical reactions in carbon cathodes during aluminum electrolysis. I: Laboratory experimentsBRILLOIT, P; LOSSIUS, L. P; ØYE, H. A et al.Metallurgical transactions. B, Process metallurgy. 1993, Vol 24, Num 1, pp 75-89, issn 0360-2141Article