CHAP. 6: THERMODYNAMICS OF HOMOGENEOUS MIXTURES [CONTENTS] 167
Solution
According to (6.55) we have
G
E
i =Gi−Gi,id.mix,
where, according to (6.50)
Gi,id.mix=G•m,i+RTlnxi.
From (6.90) we get the relation for the partial molar Gibbs energy (chemical potential) in the
form
Gi=G•m,i+RTlnai=G•m,i+RTlnxiγi.By subtracting we obtain the required relationG
E
i =RTlnγi.Example
The activity coefficientsγ 1 = 2.27 andγ 2 = 1.041 were found for a methanol (1) — ethyl acetate
(2) system at 313.15 K andx 1 = 0.2. Calculate the excess Gibbs energy in this mixture.Solution
From relation (6.104) we obtain
∆GE= 8. 314 × 313. 15 ×[0. 2 ×ln 2.27 + 0. 8 ×ln 1.041 ] = 510. 6 J mol−^1.Thedependence of the activity coefficient on temperatureis expressed by the relation
lnγi(T 2 ) = lnγi(T 1 ) +∫T 2T 1(
∂lnγi
∂T)p,ndT , (6.105)where (
∂lnγi
∂T
)p,n= −
Hi−Hmst,i
RT^2