1 6.8. Liquid isobutane is throttled through a valve from an initial state of 360 K and4000 kPa to a final pressure of 2000 kPa. Estimate the temperature change and theentropy change of the isobutane. The specific heat of liquid isobutane at 360 K is2.78 J.g-¹.°C-1. Estimates of V and ß may be found from Eq. (3.68). In addition, generalized equations are available for the estimation of molar volumes ofsaturated liquids. The simplest equation, proposed by Rackett, 22 is an example:Vsat = = VcZc (1-T,)2/7An alternative form of this equation is sometimes useful:Zsat = Prz[1+(1-7,2/7]Tr(3.68)(3.69)22H. G. Rackett, J. Chem. Eng. Data, vol. 15, pp. 514-517, 1970; see also C. F. Spencer and S. B. Adler, ibid.,vol. 23, pp. 82-89, 1978, for a review of available equations.

The initial temperature of isobutane, T1 = 360 K The initial pressure of isobutane, P1 = 4000 kPa…

Answered: 6.8. Liquid isobutane is throttled…

Introduction to Chemical Engineering Thermodynamics

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Author:J.M. Smith Termodinamica en ingenieria quimica, Hendrick C Van Ness, Michael Abbott, Mark Swihart

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6.8. Liquid isobutane is throttled through a valve from an initial state of 360 K and
4000 kPa to a final pressure of 2000 kPa. Estimate the temperature change and the
entropy change of the isobutane. The specific heat of liquid isobutane at 360 K is
2.78 J.g-¹.°C-1. Estimates of V and ß may be found from Eq. (3.68).

In addition, generalized equations are available for the estimation of molar volumes of
saturated liquids. The simplest equation, proposed by Rackett, 22 is an example:
Vsat = = VcZc (1-T,)2/7
An alternative form of this equation is sometimes useful:
Zsat = Prz[1+(1-7,2/7]
Tr
(3.68)
(3.69)
22H. G. Rackett, J. Chem. Eng. Data, vol. 15, pp. 514-517, 1970; see also C. F. Spencer and S. B. Adler, ibid.,
vol. 23, pp. 82-89, 1978, for a review of available equations.

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