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Mars pumps

Penney, R. W., Inert Gas in Liquid Mars Pump Performance, Chemical Engineering, July 3, 1978, p. 63. [Pg.109]

By virtue of their construction, diaphragm pumps cannot be used for high pressure applications. In the Mars pump, there is no need for a diaphragm as the working fluid (oil), of lower density than the liquid to be pumped, forms an interface with it in a vertical chamber. The pump, which is used extensively for concentrated slurries, is really a development of the old Ferrari s acid pump which was designed for corrosive liquids. [Pg.319]

Figure 3-64. Rotary pumps. (By permission, Dolman, R. E., Chemical Engineering, Mar. 1952, p. 159.)... Figure 3-64. Rotary pumps. (By permission, Dolman, R. E., Chemical Engineering, Mar. 1952, p. 159.)...
Dean Brothers Pumps, Engineering Catalog Circular No. 190, Mar. 1958, Indianapolis, Ind. [Pg.222]

Karassik, I.J., Installation of Centrifugal Pumps, Chemical Processing Mar. 1989. [Pg.223]

Figure 5-5W. Jet-flow mixer. TWin flow jets from submerged centrifugal pump allow for a maximum hydraulic shear per unit of power input, high velocities useful for thick slurries. By permission. Penny, W. a, Chem. Eng., Mar. 22,1971, p. 97 [31]. Figure 5-5W. Jet-flow mixer. TWin flow jets from submerged centrifugal pump allow for a maximum hydraulic shear per unit of power input, high velocities useful for thick slurries. By permission. Penny, W. a, Chem. Eng., Mar. 22,1971, p. 97 [31].
O.A. Mar ina, V.A. Sobyanin, V.D. Belyaev, and V.N. Parmon, The effect of electrochemical pumping of oxygen on catalytic behaviour of metal electrodes in methane oxidation, in New Aspects of Spillover Effect in Catalysis for Development of Highly Active Catalysts, Stud. Surf. Sci. Catal. 77 (T. Inui, K. Fujimoto, T. Uchijima,... [Pg.186]

Weinstein, S.E. and S.B. Moran. 2004. Distribution of size-fractionated particulate trace metals collected by bottles and in-situ pumps in the Gulf of Maine-Scotian Shelf and Labrador Sea. Mar. Chem. 87 121-135. [Pg.469]

Honeyman, B.D., and Santschi, P.H. (1989) A Brownian-pumping model for oceanic trace metal scavenging evidence from Th isotopes. J. Mar. Res. 47, 951-992. [Pg.598]

Shum, K.T., and Sundby, B. (1996) Organic matter processing in continental shelf sediments—the subtidal pump revisited. Mar. Chem. 53, 81-87. [Pg.662]

Riedl, R. J., Huang, N., and Machan, R. (1972). The subtidal pump A mechanism of interstitial water exchange by wave action. Mar. Biol. 13, 210—221. [Pg.911]

Pondaven, P., Fravalo, C., Ruiz-Pino, D., Treguer, P., Queguiner, B., and Jeandel, C. (1998). Modelling the silica pump in the permanendy open ocean zone in the Southern Ocean. J. Mar. Syst. 17, 587-619. [Pg.1623]

See other pages where Mars pumps is mentioned: [Pg.883]    [Pg.883]    [Pg.225]    [Pg.304]    [Pg.703]    [Pg.13]    [Pg.186]    [Pg.186]    [Pg.329]    [Pg.329]    [Pg.432]    [Pg.196]    [Pg.602]    [Pg.44]    [Pg.429]    [Pg.60]    [Pg.225]    [Pg.227]    [Pg.121]    [Pg.225]    [Pg.490]    [Pg.1156]    [Pg.33]    [Pg.334]    [Pg.62]    [Pg.184]   
See also in sourсe #XX -- [ Pg.319 ]



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