15 · DYNAMIC CHEMICAL EQUILIBRIAEffect of temperature on equilibrium constants
The effect of temperature upon Kc(T)is summarized as follows:
1.The equilibrium constant for an exothermic reaction decreases with increasing
temperature.2.The equilibrium constant for an endothermic reaction increases with increasing
temperature.For example, the formation of HI(g) from H 2 (g) and I 2 (g) is exothermic, and
Kc(T)for this reaction falls with increasing temperature (Fig. 15.6). This means that
the percentage of HI(g) in the equilibrium mixture falls as the temperature is
increased.
The variation of an equilibrium constant with temperature is often so dramatic
that adjusting the operating temperature of a reaction is the most effective way of
improving the yield of product. The following examples illustrate this.276
Non-equilibrium conditions
Kc(T)for the reaction of steam and heated solid iron,
2Fe(s)3H 2 O(g)\===\Fe 2 O 3 (s)3H 2 (g)
is very large at 600 K, yet it is quite easy to reverse this reaction by passing hydrogen gas
over strongly heated iron oxide using the apparatus shown in Fig. 15.5. How is this
possible?Exercise 15G
Fig. 15.5Heating Fe 2 O 3 in a stream of H 2.Effect of temperature upon equilibrium
Sketch a diagram, similar to Fig. 15.4, showing a plot of
[HI(g)]^2
[H 2 (g)][I 2 (g)]
against time when a HI/H 2 /I 2 mixture at equilibrium at 667 K (where Kc(T)61) is suddenly
warmed up to 764 K (when Kc(T)46), and then allowed to slowly cool back to 667 K.Exercise 15H
KCTemperature/K2000800400400 800 1200Fig. 15.6Variation with temperature of
the equilibrium constant for the reaction
H 2 (g)I 2 (g)\===\ 2 HI(g).