Big Chemical Encyclopedia

Chemical substances, components, reactions, process design ...

Articles Figures Tables About

McBride, Lewis

S. Gordon and B. J. McBride, Computer Program for Calculation of Complex Equilibrium Compositions. Rocket Peformance Incident and Reflected Shocks and Chapman-]ouquetDetonations, NASA-Lewis Research Center, NASA, Airport, Md., Mar. 1976. [Pg.53]

McBride, B. J., Heimel, S., Ehlers, J. G., Gordon, S., Thermodynamic Properties to 6000 °K. for 210 Substances Involving the First 18 Elements, NASA Scientific Publication SP-3001, Lewis Research Center, Cleveland, 1963. [Pg.48]

Gordon, S. and McBride, B.J., Computer Program for Calculation of Complex Chemical Equilibrium Compositions and Applications, NASA Reference Publication, Lewis Research Center, Cleveland, Ohio, 1994, p. 1311. [Pg.567]

Fifteen prominent chemical engineers first met in New York more than 60 years ago to plan a continuing literature for their rapidly growing profession. From industry came such pioneer practitioners as Leo H. Baekeland, Arthur D. Litde, Charles L. Reese, John V. N. Dorr, M. C. Whitaker, and R. S. McBride. From the universities came such eminent educators as William H. Walker, Allred H. White, D. D. Jackson, J. H. James, Warren K. Lewis, and Harry A. Curtis. H. C. Parmelee, then editor of Chemical and Metallurgical Engineering, served as chairman and was joined subsequently by S. D. Kukpatrick as consulting editor. [Pg.730]

Equilibrium combustion product compositions and properties may be readily calculated using thermochemical computer codes which minimize the Gibbs free energy and use thermodynamic databases containing polynomial curve-fits of physical properties. Two widely used versions are those developed at NASA Lewis (Gordon and McBride, NASA SP-273, 1971) and at Stanford University (Reynolds, STANJAN Chemical Equilibrium Solver, Stanford University, 1987). [Pg.22]

Clay minerals behave like Bronsted acids, donating protons, or as Lewis acids (Sect. 6.3), accepting electron pairs. Catalytic reactions on clay surfaces involve surface Bronsted and Lewis acidity and the hydrolysis of organic molecules, which is affected by the type of clay and the clay-saturating cation involved in the reaction. Dissociation of water molecules coordinated to surface, clay-bound cations contributes to the formation active protons, which is expressed as a Bronsted acidity. This process is affected by the clay hydration status, the polarizing power of the surface bond, and structural cations on mineral colloids (Mortland 1970, 1986). On the other hand, ions such as A1 and Fe, which are exposed at the edge of mineral clay coUoids, induce the formation of Lewis acidity (McBride 1994). [Pg.296]

Gordon, S., and B. J. McBride. 1971. Computer program for calculation of complex chemical equilibrium compositions, rocket performance, incident and reflected shocks, and Chapman-Jouguet detonations. NASA SP-273. NASA Lewis Research Center. [Pg.139]

Carbon dioxide.—The existence of carbon dioxide in air was demonstrated by J. Black7 between 1752 and 1754 ten years later by D. McBride and in 1774, by T. Bergman. H. B. de Saussure employed lime-water as a test and N. T. de Saussure, alkaline-lye. The latter process was used by A. F. de Fourcroy, F. H. A. von Humboldt, B. Lewy, E. Frankland, I. Maeagno, etc., and P. Thenard weighed the barium carbonate produced by the action of the carbon dioxide on baryta-water. [Pg.7]

BX McBride A S. Gordon, Fortran IV Program for the Calculation of Thermodynamic Data , NASA TN D4097, Lewis Research Center, Cleveland (1967) Available NTIS N67-35192 20) TX Hauser and Lee,... [Pg.697]

Gordon and McBride (27), working at the NASA Lewis Research Center, developed an algorithm similar to the RAND Method. They minimized ... [Pg.126]

Information GORDON S., McBRIDE B.J., NASA Lewis Research Center, WASHINGTON, DC. [Pg.314]

G. Lewis, G. Steele, L. McBride, A. Florence, A. Kennedy, N. Shankland, W. David, K. Shankland, and S. Teat, Hydrophobic vs. hydrophilic ionic competition in remacemide salt structures, Cryst. Growth Des., 5, 427 38 (2005). [Pg.93]

The 4.2-inch mortar was the culmination of attempts to improve the 4-inch British Stokes Brandt (SB) mortar. With American-made SB mortars and with shell and propellants purchased from the British after World War I, the CWS sought to obtain increased range, accuracy, and mobility. By 1924, experiments under the direction of Capt. Lewis M. McBride (later colonel) produced the rifled 4.2-inch chemical mortar with a range of over 2,000 yards, and by the end of World War II this distance had been doubled. ... [Pg.418]


See other pages where McBride, Lewis is mentioned: [Pg.2380]    [Pg.67]    [Pg.286]    [Pg.751]    [Pg.751]    [Pg.299]    [Pg.218]    [Pg.2135]    [Pg.244]    [Pg.612]    [Pg.172]    [Pg.172]    [Pg.632]    [Pg.2384]    [Pg.27]    [Pg.51]    [Pg.1971]   
See also in sourсe #XX -- [ Pg.27 ]




SEARCH



McBride

© 2024 chempedia.info