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Electrochemical Industries Ltd.

EKA Chemicals North America, 194, 227 ELASTOMAG , magnesium oxide, 60 Elco Corporation, 227 Electro Abrasives Corporation, 227 Electrochemcal hidustries Ltd. (Israel), 177 Electrochemical Industries Ltd. (EIL), 233 Electrochemical Society, The, 270 Elementis Cln omium, 209 Elementis Pic, 209 Elf Aquitaine, 160... [Pg.331]

FIGURE 14.36 Performance characteristics of Li/SOCl2 with BrCl-additive. D-size batteries, a) Discharge characteristics at 20°C. Courtesy of Electrochem Industries, Div., Wilson Great-batch, Ltd.)... [Pg.378]

Other suppliers of lithium-thionyl chloride cells include reserve type Yardney GJS), Philips USFA BV (Holland), Power Conversion Ltd (US), SAFT. Silberkraft, (Germany) and Sonnenschein, (Germany) active type Battery Enginccnng Co. (US), Crompton Eternaceil (UK), Electrochemical Industries (Japan), Hitachi Maxell (Japan), Power Conversion Ltd (US), Tadiram (Korea), Yardney (US) and Eveready (US). [Pg.670]

HDPE - Liten - Chemopetrol Litvinov PP - Mosten - Chemopetrol Litvinov PVC - EpivyI - Electrochemical Industries PASS - Polynil - Nilit Ltd... [Pg.69]

A. T. Kuhn, ed.. Industrial Electrochemical Processes, Elsevier Publishing Co. Ltd., Amsterdam, the Netherlands, 1971. [Pg.134]

Hladky, K. and John, D.G., Corrosion Monitoring Using Electrochemical Noise , 2nd. Int. Conf. on Corrosion Monitoring and Inspection in the Oil, Petrochem. and Process Industries, London, Oyez Scientific and Technical Services Ltd., London (1984)... [Pg.1150]

FIG. 19-33 Electrochemical reactor configurations. [From Oloman, Electrochemical Processing for the Pulp and Paper Industry, The Electrochemical Consultancy, 1999, p. 79, Fig. 2.10 printed in Great Britain hy Alresford Press Ltd. Referring to Tutorial Lectures in Electrochemical Engineering and Technology (D. Chin and R. Alkire, eds.), AIChE Symposium Series 229, vol. 79,1983 reproduced with permission.]... [Pg.52]

Abstract. Nanocarbon materials and method of their production, developed by TMSpetsmash Ltd. (Kyiv, Ukraine), are reviewed. Multiwall carbon nanotubes with surface area 200-500 m2/g are produced in industrial scale with use of CVD method. Ethylene is used as a source of carbon and Fe-Mo-Al- mixed oxides as catalysts. Fumed silica is used as a pseudo-liquid diluent in order to decrease aggregation of nanotubes and bulk density of the products. Porous carbon nanofibers with surface area near 300-500 m2/g are produced from acetylene with use of (Fe, Co, Sn)/C/Al203-Si02 catalysts prepared mechanochemically. High surface area microporous nanocarbon materials were prepared by activation of carbon nanofibers. Effective surface area of these nanomaterials reaches 4000-6000 m2/g (by argon desorption method). Such materials are prospective for electrochemical applications. Methods of catalysts synthesis for CVD of nanocarbon materials and mechanisms of catalytic CVD are discussed. [Pg.529]

Catalogue of Secondary Titanium Oxide-Manganese Oxide Batteries, Matsushita Battery Industrial Co., Ltd. Reimers, J.N. and Dahn, J.R. (1992) J. Electrochem. Soc., 139, 2091. [Pg.85]

See other pages where Electrochemical Industries Ltd. is mentioned: [Pg.233]    [Pg.233]    [Pg.233]    [Pg.229]    [Pg.233]    [Pg.233]    [Pg.233]    [Pg.229]    [Pg.493]    [Pg.625]    [Pg.348]    [Pg.377]    [Pg.378]    [Pg.1426]    [Pg.1431]    [Pg.107]    [Pg.538]    [Pg.34]    [Pg.53]    [Pg.85]    [Pg.118]    [Pg.298]    [Pg.39]    [Pg.196]    [Pg.495]    [Pg.385]    [Pg.219]    [Pg.2142]    [Pg.2143]    [Pg.1105]    [Pg.338]   
See also in sourсe #XX -- [ Pg.233 ]

See also in sourсe #XX -- [ Pg.233 ]



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Electrochemical Industry

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