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Scraper Thin Film Evaporator

  • Industrial Agitated Scraper Thin Film Evaporator for Low Concentration Solution

Industrial Agitated Scraper Thin Film Evaporator for Low Concentration Solution

Industrial Agitated Scraper Thin Film Evaporator for Low Concentration Solution


The scraper film evaporator is mainly composed of a heating jacket and a scraper. The jacket is heated by steam. The scraper is mounted on a rotatable shaft, and the scraper and the heating jacket inner wall maintain a small gap, usually 0.5 to 1.5 mm. After the preheating, the liquid is added from the upper part of the evaporator in the tangential direction. Under the action of gravity and rotating scraper, the lower rotating film is distributed on the inner wall, and is continuously evaporated and concentrated during the descending process, and the finished liquid is discharged from the bottom. The secondary steam escapes from the top. In some cases, this evaporator evaporates the solution to give a solid product directly at the bottom.


Application

In the fields of medicine, pesticide, oleochemical, petrochemical, fine chemical, daily chemical, biochemical, etc., it is mainly used for evaporation, concentration, desolvation, stripping, reaction, degassing and deodorization of heat sensitive and oxidizable materials. 


Working Principle

The material continuously enters the horizontal evaporator from the large diameter end, is accelerated and dispensed by the wiper blade and immediately forms a thin flowing film on the heating surface. The conical thin film evaporator relies on the centrifugal force exerted by the rotor on the material. The centrifugal force has two effective forces, one perpendicular to the heating surface and the other toward the large diameter end body. (Note: the same result also appears in the vertical conical type. In the thin film evaporator, the force is generated by these forces, and the incoming material ensures that the heating surface is sufficiently wet and does not depend on the evaporation ratio or the feed rate. Therefore, local material overheating and thermal degradation are reduced or completely eliminated.