Abstract:
A multi-phase reactor system for performing multi-phase reactions is disclosed. The reactor system includes a reaction vessel having a slinger device (100) mounted on a centrally positioned agitator shaft (102) proximal to an operative top of the reaction vessel. The slinger device (100) comprises a holding means defined by a vertical circumferential plate (108) and a cover plate (107) for at least partially encasing the agitator shaft (102) to define a space for collecting a liquid. The holding means comprise at least one spraying means including spray pipes (106) for distributing the liquid on an inner wall of the reaction vessel by a projectile trajectory path on rotation of the agitator shaft. A concave blade (104) may be positioned over the cover plate (107) for preventing overflow of the liquid from the holding means and forming an umbrella of the flowing liquid to effect scrubbing of the vapors and off-gas.
Abstract:
A multi-phase reactor system for performing multi-phase reactions is disclosed. The reactor system includes a reaction vessel having a slinger device (100) mounted on a centrally positioned agitator shaft (102) proximal to an operative top of the reaction vessel. The slinger device (100) comprises a holding means defined by a vertical circumferential plate (108) and a cover plate (107) for at least partially encasing the agitator shaft (102) to define a space for collecting a liquid. The holding means comprise at least one spraying means including spray pipes (106) for distributing the liquid on an inner wall of the reaction vessel by a projectile trajectory path on rotation of the agitator shaft. A concave blade (104) may be positioned over the cover plate (107) for preventing overflow of the liquid from the holding means and forming an umbrella of the flowing liquid to effect scrubbing of the vapors and off-gas.