PHYSICAL CHEMISTRY IN BRIEF

(Wang) #1
CHAP. 9: CHEMICAL KINETICS [CONTENTS] 311

Example
The above mechanism is used to explain the oxidation of nitrogen oxide to nitrogen dioxide

2 NO+O 2 → 2 NO 2 ,

which is a third-order reaction. Write the mechanism of the reaction, find out which substance
is the intermediate, and what has to apply for the rate constants of the partial reactions in order
that we could calculate the concentration of the intermediate from relation (9.152).

Solution
The oxidation mechanism is

2 NO ⇀↽N 2 O 2 ,
N 2 O 2 +O 2 → 2 NO 2.

The intermediate of the reaction is nitrogen oxide dimer N 2 O 2. Relation (9.152) is based on
the assumption of pre-equilibrium, see the preceding section. In this case it is assumed that the
dimerization of nitrogen oxide quickly reaches the state of thermodynamic equilibrium, and that
the dimer oxidation to nitrogen dioxide is relative slow, i.e.k 3 k 1 andk 3 k 2.

9.5.9 Chain reactions


Chain reactions are complex consecutive reactions characterized by a cyclic consumption and
formation of reactive intermediates, most often radicals. We distinguish three stages of a chain
reaction:


a) Initiationor formation of reactive intermediates. Usually it occurs when the reactants
are heated (thermal initiation) or irradiated (photoinitiation).
b) Propagation. This is a cyclically proceeding reaction or a sequence of reactions (cycle).
We distinguish:


  • Unbranched-chain reactions, in which the same number of reactive intermediates is
    formed as consumed in the course of the cycle.

Free download pdf