NITRATION WITH NITRATING MIXTURES 145be carried out at higher temperatures without any risk of exceeding the safety limit
and due to the higher temperature, nitration can proceed more rapidly.
Gelfman [5] has revised the generally accepted data for calculation of the heat
generated during mixing the acids and during their dilution with water [16]. He found
the absolute value of the heat generated in the reaction between sulphuric and
nitric acids to be lower in the presence of water than when the acids are in an an-
hydrous state. He also found it decreased on diluting the acids with water. This
relationship presented graphically is close to a linear one (Fig. 19). On the diagram
TABLE 17PHYSICAL PROPERTIES OF SULPHURIC ACIDSpecific gravity H 2 SO 4 %Specific heat
cal/g1.84 98.5 0.33
1.82 90.0 0.36
1.77 83.4 0.38
1.71 77.5 0.41
1.61 69.0 0.45
1.53 62.5 0.49
1.45 55.0 0.55FIG. 19. Heat evolved on mixing nitric acid with sulphuric acid
in relation to the water content A in these acids. Quantity of heat
Q = A B (Gelfman [5]).A is the percentage of water in the mixture and B the coefficient of the thermal
effect of mixing the acid, It ranges from 1 (maximum value) for anhydrous acids,
and is zero for water. The thermal effect of mixing hydrated acids will be expressed
by the product B*Q, where Q is a value taken from another of Gelfman’s
diagrams (Fig. 20).