PHYSICAL CHEMISTRY IN BRIEF

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CHAP. 10: TRANSPORT PROCESSES [CONTENTS] 340

10.4 Flow of matter—diffusion


Diffusionis a process during which concentrations are spontaneously equalized in a system
with different concentrations. For the sake of simplicity we will deal solely with diffusion in
binary mixtures.

10.4.1 Fick’s first law of diffusion


The flow of substance is caused by differences in its concentration. The driving force is a change
of a component concentration with location, or, to be more precise, a derivative of concentration
with respect to location,

dci
dz

.

In a binary mixture we have

1
S

dni

=−Dij

dci
dz

, i, j= 1,2 [T, p] (10.14)

whereDijis the diffusion coefficient of componentiin a mixture with componentj, while

D 12 =D 21. (10.15)

10.4.2 Diffusion coefficient.


The diffusion coefficient gives the number of moles of a given component in a mixture which
passes through unit area per unit time at unit concentration gradient of the component.
U Main unit:m^2 s−^1.


10.4.2.1 Dependence on state variables.

In gases, the diffusion coefficient increases with temperature and decreases with pressure; ac-
cording to kinetic theory the diffusion coefficient does not depend on the mixture composition,
see section10.5.3, equations (10.24) and (10.23).
The diffusion coefficients in liquids are smaller than in gases (diffusion is slower). In solids
they are yet smaller than in liquids.
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