The thermal behavior of a mixture of sodium metasilicate, aluminum hydroxide and silicagel has been studied. The mixture was intended for the NaP zeolite synthesis; the atomic ratio of Si:Al was 2:1. To intensify heterophase processes in suspensions, the ultrasonic treatment with a frequency of 22 kHz was used. Suspensions were evaporated, molded into pellets and dried. X-ray diffraction, scanning electron microscopy, and synchronous thermal analysis have been used for testing. After calcination of the samples at 700 degrees C, alpha-Na2Si2O5 and beta-Na2Si2O5 as well as the X-ray amorphous phase were detected. It was shown that preliminary ultrasonic treatment allows obtaining particles with smaller particle size and coherent scattering region dimension, as well as a greater value of microdeformations for abovementioned crystalline phases. It was demonstrated that stepwise dehydration was observed during the heating of the specimens. It was shown that preliminary ultrasonic treatment allows reducing dehydration temperatures from 3 to 10 degrees C. The values of the apparent activation energy and the pre-exponential factor have been calculated by differential method (Friedman analysis) and integral methods (Ozawa-Flynn-Wall and Kissinger-Akahira-Sunose analyzes). It was demonstrated that these analyzes yielded close values. It was established that the values of the apparent activation energy of the dehydration processes for the specimen after ultrasonic treatment are 50-100 kJ mol(-1) less than for the specimen without ultrasound. All mentioned effects have been explained by the increase in the defectiveness of a solid as a result of the impact of shock waves which are produced during cavitation at the ultrasonic treatment of the suspension. (C) 2018 Elsevier B.V. All rights reserved.