Finely dispersed salt particles morphometric properties obtained by carnallite solutions spray drying

Abstract

Abstract Currently, there is no consensus on the salt caves aero ionic environment effects mechanism on the human body, however, there is physiotherapy a separate type, based on such exposure health-improving effect, known as speleotherapy. To recreate the salt cave environment aero ionic composition, a halo chamber is used. To reduce their cost, recreating the air environment methods by contacting flowing air means with carnallite rock finely dispersed powder and dry and wet aerosols generators have been developed. When implementing these methods, both the powder obtained directly by crushing the rock and the powder obtained by salt solutions evaporation drying can be used. The study aim is to reveal finely dispersed salt particles morphometric properties obtained by carnallite solutions spray drying based on different dispersion raw materials. It has been established fine salt particles those morphometric properties obtained by spray drying of carnallite solutions based on different dispersion raw materials differ in average size, sphericity factor, topography character and chemical composition. Particles formed by solution evaporation on the macro disperse raw materials (3-5 mm) basis have larger size, smaller fractional range, more compact shape and relief characterized by multifractality. At the same time, solution-based particles from macro disperse raw materials contain more impurities. Particles a distinguishing characteristic from solution-based lumpy raw materials is the potassium cluster distribution on the surface.