312 CHEMISTRY AND TECHNOLOGY OF EXPLOSIVESKinetics of the nitration of dinitrotoluene to trinitrotoluene............
DINITROTOLUENE TO TRINITROTOLUENEFrom the results of their studies on the kinetics of the nitration of 2,4-dinitroto-
luene to 2,4,6-trinitrotoluene Bennett and his co-workers [109, 110] inferred that
the reaction is of the third order, represented as follows:DNT + NO 2 + + HSO 4 - -> TNT + H 2 SO 4 (17)DNT + NO 2 + + H 2 SO 4 ->TNT + H 2 SO 4 (18)In the presence of oleum the reaction
DNT + NO 2 + + HS 2 O 7 -> - TNT + H 2 S 2 O 7 (19)may also take place.
The rate of the nitration reaction in the presence of sulphuric acid can be re
presented by :d[TNT]
dt= k[DNT][NO 2 +][HSO 4 - ] + k’[DNT][NO 2 +][H 2 SO 4 ] (20)The constants k and k’ are independent of the medium and of the concentration
of sulphuric acid. If Q denotes the proportion of nitric acid dissociated into NO 2 +
ions, then :
[NO 2 +] = Q [HNO 3 ] (21)From this the following equation for the rate of nitration can be derived:
d[TNT]
dt= {k[HSO4-] + k’[H 2 SO 4 ]}[DNT][HNO 3 ]Q (22)At a constant concentration of sulphuric acid the nitration rate can be repre-
sented by a second order reaction equation:d[TNT]
dt= k 2 [HNO 3 ][DNT] (23)where k 2 is the rate constant of a second order reaction.
From equation (22) Bennett and his co-workers derived the following generalequation valid when oleum is used:
d[TNT]
dt= k [HSO 4 - ] + k’[H 2 SO 4 ] + k''[HS 2 O 7 - ][DNT][HNO 3 ]Q (24)Values of k, k’ and k” for concentrations of sulphuric acid ranging from 87.4%
H 2 SO 4 to oleum containing 29.1% SO 3 , at temperatures from 60°C to 120°C,
have been determined experimentally.
The experiments are in agreement with the equations derived. In particular,
the equations show that an increase in the reaction rate due to decreasing the con-