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Henry's law constants and infinite dilution activity coefficients of C2–C8hydrocarbons in phenylalkanes

✍ Scribed by David W. Morton; Colin L. Young

Publisher
Elsevier Science
Year
1996
Tongue
English
Weight
368 KB
Volume
28
Category
Article
ISSN
0021-9614

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✦ Synopsis

Infinite dilution activity coefficients g a 13 and Henry's law constants H for mixtures of alkanes and alkenes (C3 to C6) in phenylalkanes (C10 to C19) are reported. These were determined using gas-liquid chromatography (g.l.c.) A lattice theory for liquids, which has previously been applied to these types of mixtures, was used to calculate interchange energies from the experimental data. These were found to differ from those reported by previous workers. Good agreement (between 1 per cent and 5 per cent) was found between predicted and experimental g a 13 results for (alkane+phenylalkane). However, this was found not to be the case for the (alkene+phenylalkane) when the alkene segment (-CH.CH2) was assumed to behave similarly to the -CH2-CH2-segment. The differences between experimental and theoretical g a 13 values for these types of mixtures were of the order of 30 per cent when using interchange energies derived from (alkane+phenylalkane.

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