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Differential vaporization curves for complex mixtures

✍ Scribed by E.J. Hoffman

Book ID
103003859
Publisher
Elsevier Science
Year
1969
Tongue
English
Weight
231 KB
Volume
24
Category
Article
ISSN
0009-2509

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✦ Synopsis

Department of Chemical Engineering 0. E. POTTER plexity, even for the description of bubble growth. If h a r, Monash University the term h -r = h. This assumption is reasonable since the Melbourne, Austrafia acceleration term is more important tbe larger is h. Hence making the above assumption and replacing r by (3 V/~P) 1'3 Eq (4) becomes:

A dtP 1 (6) ; of cross-sectional area of vessel, cm* constant, cm3 sec-* acceleration due to gravity, cm sec+ height of liquid above the orifice orifice constant, cm'/* g+* P, -gph, g cm-' sec+ pressure in drum, g cm-' sec-* radius of bubble, cm time, sec An analytical solution of this equation does not readily V volume of bubble, cm3 suggest itself, so that recourse to an analogue or digital o surface tension, dyn cm-' computer will be requited.

P density of liquid, g cm+ NOTATION

πŸ“œ SIMILAR VOLUMES

Vaporization of Complex Mixtures
Vaporization of Complex Mixtures
✍ Podbielniak, Walter J.; Brown, Geo. Granger. πŸ“‚ Article πŸ“… 1929 πŸ› American Chemical Society βš– 954 KB