RU2001106803A - METHOD OF FLOTATION IN A PNEUMATUS PULSE APPARATUS AND ITS DESIGN - Google Patents

Claims (9)

1. The flotation method in a pneumopulsation apparatus, carried out using the average speeds of the dispersible pulp in the working cavity of the flotation chamber and the rates of particle removal with foam according to the general law of mass action, as applied to flotation, which establishes the proportionality between the rate of particle removal into the foam and the concentration of air bubbles and mineral particles, characterized in that, in order to increase productivity by coordinating the introduction of fresh pulp into the working cavity of the flotation chamber, the input speed the volume of fresh pulp and the rate of flow of dispersed pulp into the working cavity of the flotation chamber is in the range from 1/1 to 1/4, while the process of regulating the size of the bubbles formed in the pulsating mode is carried out by introducing steam into the air supplied to the flotation depending from the temperature of fresh pulp, which determines the temperature regime in the working cavity of the flotation chamber.  2. The flotation method in a pneumopulse apparatus according to claim 1, characterized in that the fresh pulp is fed into the cavity of the flotation chamber by separate flows in height in the middle part of the working cavity of the flotation chamber.  3. The pulsation apparatus according to claim 1, including a flotation chamber with a nozzle: introducing a chamber product combined with the housing, an aerator made in the form of two cylinders with dispersants in the inner cavity between them, a pulsator connected to the aerator by a gas nozzle installed on the supporting farm , a chimney of dispersed pulp located under the aerator, a foam trough with the output of mineralized foam, a soothing grill located in the upper part of the flotation chamber, characterized in that it is equipped with a cylinder with a disperse rgators inside, located in the central part of the apparatus, connected in the upper part with the gas pipe from the pulsator and in the lower part with the chipper of the dispersed pulp, a device for controlling the process of bubble formation using steam supplied to the gas pipe, a device for introducing fresh pulp into the flotation chamber with a dispersed pulp located in the middle of the flotation chamber in the form of a circular cavity with a nozzle and with flotation openings of various sizes in the flotation chamber for all th circle.  4. Pneumopulse apparatus according to claim 3, characterized in that it is equipped with a device for introducing fresh pulp into the flotation chamber with dispersed pulp located in the middle of the flotation chamber, in the form of two or more circular cavities with nozzles and flotation inlets of different sizes cracks around the entire circumference and located in the middle part along the height of the flotation chamber.  5. Pneumopulse apparatus according to claim 3, characterized in that it is equipped with a device for controlling the process of formation of bubbles in the flotation chamber using steam supplied to the gas pipe.  6. Pneumopulse apparatus according to claim 5, characterized in that it is equipped with a device for controlling the formation of bubbles in the flotation chamber using heated gas supplied to the gas pipe.  7. Pneumopulse apparatus according to claim 3, characterized in that it is equipped with a device for accelerated removal of mineralized foam during defoaming, connected to a gas pipe and located above the soothing grill, in the form of radially arranged perforated wings.  8. Pneumopulse apparatus according to claim 7, characterized in that it is equipped with a device for removing mineralized foam during defoaming in the form of a coating on top of radially arranged perforated wings and forming channels of variable cross section with them, increasing from the center of the flotation chamber to the periphery to overflow into the gutter.  9. Pneumopulse apparatus according to claim 3, characterized in that it is equipped with a device for damping vibration from the supporting pulsator of the supporting farm, mounted on the housing, in the form of a springy gasket.