What is the scope of application of Continuous disc dryer for battery materials products
Continuous disc dryer for battery materials products is a conductive continuous dryer device. Its unique structural features and principles determine that it has the characteristics of high calorific value, low energy consumption, small total area, simple equipment, convenient real-time control and good office environment. It is widely used for dry work in chemical plants, pharmaceuticals, fertilizers, food, concentrate, agricultural and sideline products processing and other fields. It has received five-star praise in practical activities in various fields.
The drying process of Continuous disc dryer for battery materials products must consume a lot of heat. In order to better save kinetic energy and high proportion of wet materials, the solid materials or saturated solutions are floated in the dryer according to mechanical equipment de-drying or thermal evaporation first, and then dried to dry the solid. The purpose of dryness is to apply materials or further solve the dryness before wood and wood, which can avoid equipment deformation, and dryness of fired porcelain blanks can avoid cracking of goods. In addition, dry materials are easy to transport and store. If the grains obtained are dry to a certain moisture content, they can be used to prevent mold growth.
In the drying process of using Continuous disc dryer for battery materials products, the calorific value and quality must be transmitted at the same time to ensure that the water vapor partial pressure circuit (concentration value) on the surface of the material exceeds the wet steam working pressure, and to ensure the heat source of the external space The temperature is higher than the material. There are various methods of heat conduction from the heat source to the wet material. The water on the surface of the material evaporates and disperses into the outer space, so the water content on the surface and inside of the material is different. The moisture in the internal structure spreads to the surface and evaporates, so that the moisture content of the material will also slowly dry out the overall material.