Big Chemical Encyclopedia

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

Articles Figures Tables About

PENNSYLVANIA,STATE

Riazi, M.R. (1979), "Prediction of thermophysical properties of petroleum fractions". Ph. D. Thesis, Dpt of Chem. Eng., The Pennsylvania State University, PA. [Pg.459]

Umesi, N.O. (1980), Diffusion coefficients of dissoived gases in iiquids -Radius of gyration of solvent and solute . M.S. Thesis, The Pennsylvania State University, PA. [Pg.460]

P. Meakin, Multiple Scattering of Waves in Random Media and Random Rough Surfaces, The Pennsylvania State University Press, State College, PA, 1985. [Pg.594]

A. Welford Castlbman, Jr., Department of Chemistry, The Pennsylvania State University, University Park, Pennsylvania, U.S.A. [Pg.761]

Robert E. Newnham Thomas R. Shrout Pennsylvania State University... [Pg.316]

K. H. Butier, FluorescentEamp Phosphors Technology and Theo, The Pennsylvania State University Press, University Park, 1980, Chapt. 12, pp. [Pg.293]

DIPPRData Compilation File (STN International online service). Design Institute for Physical Property Data, Pennsylvania State University, University Park, Pa., Aug. 1994. [Pg.423]

The vapoi piessuie values have been calculated at the indicated tempeiatuies using the lelationship derived from experimental data at Pennsylvania State University, and a critical review of Hterature references (5). This study is a part of the effort by the American Institute of Chemical Engineers (AIChE) to obtain accurate data through their Design Institute for Physical Property Data (DIPPR). [Pg.428]

Keeney s laboratory at Pennsylvania State University, and in Table 15, for analyses done at South Dakota University. Where possible, data on more than ... [Pg.96]

C. O. Jensen, Chemical Changes During the Curing of Cigar Eeaf Tobacco, The Pennsylvania State College, American Chemical Socief, State College, Pa., Sept. 1951. [Pg.190]

James O. Maloney is Professor Emeritus of the Department of Chemical and Petroleum Engineering, University of Kansas. He holds a Ph.D. degree in chemical engineering from Pennsylvania State University. In 1941 he began liis professional career at the DuPont de Nemours Company, before joining the University of Kansas in 1945, where he taught for 40 years. He served as department chairman for nineteen years. He is a fellow of the AIChE. [Pg.6]

Thomas E. Dauhert, Ph.D., Professor, Department of Chemical Engineering, The Pennsylvania State University (Section 2, Physical and Chemical Data)... [Pg.10]

Arthur E. Humphrey, Ph.D., Retired, Professor of Chemical Engineering, Pennsylvania State University Member, U.S. National Academy of Engineering, American Institute of Chemical Engineers, American Chemical Society, American Society for Microbiology (Section 24, Biochemical Engineering)... [Pg.12]

Pressure drop and collection efficiency of a wave-plate separator, (a) Pressure drop, (h) Efficiency clearance between sheets. (Katz, M.S. thesis, Pennsylvania State Univeisity, 195S. )... [Pg.1431]

William B. White Pennsylvania State University University Park, PA... [Pg.774]

Some 20 years after the pressure for the creation of the new interdisciplinary laboratories was first felt, one of the academics who became involved very early on. Prof. Rustum Roy of Pennsylvania State University, wrote eloquently about the underlying ideal of interdisciplinarity (Roy 1977). He also emphasised the supportive role played by some influential industrial scientists in that creation, notably Dr. Guy Suits of GE, whom we have already encountered, and Dr. William Baker of Bell Laboratories who was a major force in pushing for interdisciplinary materials research in industry and academe alike. A magisterial survey by Baker (1967), under the title Solid State Science and Materials Development, indicates the breadth and scope of his scientific interests. [Pg.12]

Harwood, J.J. (1970) Emergence of the field and early hopes, in Materials Science and Engineering in the United States, ed. Roy, R. (Pennsylvania State University Press) p. 1. [Pg.16]

Manthiram, A. (1999) Unpublished lecture at Pennsylvania State University, August. Mathur. N.D. et al. (1997) Nature 387, 266. [Pg.459]

A number of workers at Pennsylvania State University examined the push-pull system and found good agreement between their numerical and experimental work. The computational algorithm SIMPLER was used to solve the flow in the two-dimensional push-pull system and it was concluded that for a tank 1.8 m long, the push jet must have an initial velocity of 3.8 m s, that the exhaust flow rate per unit width should be 0.495 m s", and that the ratio of the pull to push flow rates, q /qj, must be between 8.8 and 17.8. [Pg.945]

Pennsylvania State University Milton S. Hershey Medical Center 500 University Dr., MC H043 P.O. Box 850 Hershey, PA 17033-0850... [Pg.316]

Figure 12.30 Potential uses of polyphosphazenes (a) A thin film of a poly(aminophosphazene) sueh materials are of interest for biomedical applications, (b) Fibres of poly[bis(trifluoroethoxy)phosphazene] these fibres are water-repellant, resistant to hydrolysis or strong sunlight, and do not burn, (c) Cotton cloth treated with a poly(fluoroalkoxyphosphazene) showing the water repellaney eonferred by the phosphazene. (d) Polyphosphazene elastomers are now being manufaetured for use in fuel lines, gaskets, O-rings, shock absorbers, and carburettor eomponents they are impervious to oils and fuels, do not bum, and remain flexible at very low temperatures. Photographs by eourtesy of H. R. Allcock (Pennsylvania State University) and the Firestone Tire and Rubber Company. Figure 12.30 Potential uses of polyphosphazenes (a) A thin film of a poly(aminophosphazene) sueh materials are of interest for biomedical applications, (b) Fibres of poly[bis(trifluoroethoxy)phosphazene] these fibres are water-repellant, resistant to hydrolysis or strong sunlight, and do not burn, (c) Cotton cloth treated with a poly(fluoroalkoxyphosphazene) showing the water repellaney eonferred by the phosphazene. (d) Polyphosphazene elastomers are now being manufaetured for use in fuel lines, gaskets, O-rings, shock absorbers, and carburettor eomponents they are impervious to oils and fuels, do not bum, and remain flexible at very low temperatures. Photographs by eourtesy of H. R. Allcock (Pennsylvania State University) and the Firestone Tire and Rubber Company.
S. Braslavsky, H. A. Wiebe, and J. Heieklen, Centre for Air Environment Studies, Publieation No. 164-70, Pennsylvania State University (1970). [Pg.84]

Ltidhim, F. H. (1980). Clouds and Storms. University Park Pennsylvania State University. [Pg.94]

Pennsylvania State University Energy Economics Subsidies and Energy Costs... [Pg.1289]

Frank C. Whitmore (1887-1947) was born in North Attleboro. Massachusetts, and received his Ph.D. at Harvard working with E. L. Jackson. He was professor of chemistry at Minnesota, Northwestern, and the Pennsylvania State University. Nicknamed "Rocky," he wrote an influential advanced textbook in organic chemistry. [Pg.200]

What evidence is there to support the carbocation mechanism proposed for the electrophilic addition reaction of alkenes One of the best pieces of evidence was discovered during the 1930s by F. C. Whitmore of the Pennsylvania State University, who found that structural rearrangements often occur during the reaction of HX with an alkene. For example, reaction of HC1 with 3-methyl-1-butene yields a substantial amount of 2-chloro-2-methylbutane in addition to the "expected" product, 2-chloro-3-methylbutane. [Pg.200]

See other pages where PENNSYLVANIA,STATE is mentioned: [Pg.208]    [Pg.210]    [Pg.211]    [Pg.56]    [Pg.443]    [Pg.335]    [Pg.1427]    [Pg.125]    [Pg.275]    [Pg.535]    [Pg.267]    [Pg.208]    [Pg.268]    [Pg.950]    [Pg.1341]   


SEARCH



Coal Pennsylvania State

Lignite Pennsylvania State University

Pennsylvania

Pennsylvania State Universit

Pennsylvania State University

The Pennsylvania State University

© 2024 chempedia.info