A feed distributor at the entry point distributes the liquid in a thin film on the heated wall. The high speed rotor further spreads and intensely agitates the film as it flows down. The generated vapors flow countercurrently and get cleaned by an integrally mounted entrainment separator.
A vertical Agitated Thin Film Dryer (ATFD-V) has a centrally located rotor having closely fitting blades. It rotates in a precision-machined jacketed shell.
The feed is converted into a thin film, which is intensely agitated due to action of the high-speed rotor. The feed material goes through phases of slurry, paste and wet powder, before coming out as a dry powder.
A vertical Agitated Thin Film Dryer (ATFD-V) has a centrally located rotor having closely fitting blades. It rotates in a precision-machined jacketed shell.
The feed is converted into a thin film, which is intensely agitated due to action of the high-speed rotor. The feed material goes through phases of slurry, paste and wet powder, before coming out as a dry powder.
A horizontal Agitated Thin Film Dryer (ATFD-H) has a centrally located rotor having closely fitting blades. It rotates in a precision-machined jacketed shell.
The feed in the form of solution, slurry or wet cake is converted into a thin film, which is intensely agitated due to action of the high-speed rotor. Depending upon the nature of the feed, it goes through phases of slurry, paste and wet powder, before coming out as a dry powder.
A Short Path Distillation Unit (SPDU) is also called as Molecular Distillation Unit.
It is distinguished from a standard Agitated Thin Film Evaporator by an internally mounted condenser. The vapor generated on the heated surface travels a very short distance to reach the condenser surface, thus eliminating pressure drop. Operation under fine vacuum down to 0.001mbar is possible.
It is distinguished from a standard Agitated Thin Film Evaporator by an internally mounted condenser. The vapor generated on the heated surface travels a very short distance to reach the condenser surface, thus eliminating pressure drop. Operation under fine vacuum down to 0.001mbar is possible.