RU2009108196A - METHOD FOR SEWAGE TREATMENT AND INSTALLATION FOR ITS IMPLEMENTATION - Google Patents

Abstract

1. A method of wastewater treatment, including flocculation of the treated wastewater with a polymer reagent in a flocculator having a low-speed mixing device, and then feeding it into the mixing chamber of the flotator for contact with the mixture during mixing, and the mixture is formed in the pressure head tank-saturator by contacting a part of the treated water with compressed air and its subsequent supply to the mixing chamber of the flotator by means of a nozzle with a control valve, with the release of the smallest air bubbles as a result of a pressure drop and the formation of complexes from floccules and air bubbles, the density of which is lower than the density of water, with the possibility of dissipating the kinetic energy of the mixture before its supply to the separation zone of the flotator, the supply of the mixture to the separation zone of the flotator, separation of the complexes from floccules and air bubbles in the separation zone and their collection on the surface of the water layer, removal of floating products from the flotator using a system of strokes or a system of p overflow and their subsequent withdrawal through a gutter outside the installation, and the withdrawal of treated waste water from the installation into natural reservoirs, characterized in that before the removal of treated waste water from the installation into natural reservoirs, aerobic biological treatment of clarified waste water is carried out using activated sludge microorganisms, moreover, the biochemical oxidation of dissolved biogenic elements is carried out by an immobilized biofilm on carriers placed in the aerotank, after which the water-sludge mixture obtained in the aerotank is subjected to settling in a secondary clarifier to obtain a precipitated biomass, one

Claims (12)

1. A method of wastewater treatment, including flocculating the treated wastewater with a polymer reagent in a flocculator having a low-speed mixing device, and then supplying it to the flotator mixing chamber to contact the mixture during mixing, the mixture being formed in a pressure saturator tank by contacting part of the treated water with compressed air and its subsequent supply to the flotator mixing chamber by means of a nozzle with a control valve, with the release of tiny air bubbles in as a result of the pressure drop and the formation of complexes from flocs and air bubbles, the density of which is lower than the density of water, with the possibility of dissipating the kinetic energy of the mixture before it is fed to the separation zone of the flotator, the supply of the mixture to the separation zone of the flotator, separation in the separation zone of complexes of flocs and air bubbles and collecting them on the surface of the water layer, removing floating products from the flotator using a paddle system or overflow system and their subsequent withdrawal through the gutter outside the installation, and the output is cleaned of wastewater from the installation into natural reservoirs, characterized in that before the withdrawal of treated wastewater from the installation into natural reservoirs, aerobic biological treatment of clarified wastewater using microorganisms of activated sludge is carried out, and the biochemical oxidation of dissolved biogenic elements is carried out by immobilized biofilm placed in aeration tank carriers, after which the water-sludge mixture obtained in aeration tank is subjected to sedimentation in a secondary settling tank to obtain precipitated biomass, one Part of which is recycled to the entrance to the aeration tank to maintain the biological treatment process and the other portion is sent to treatment for hydromechanical separation therefrom bioflokulyantov, thus flocculating the treated waste water is carried bioflokulyantom. 2. The method according to claim 1, characterized in that during the mixing process, the contact time of water and compressed air in the pressure tank saturator does not exceed 1 min with a capacity of saturated water up to 300 m ³ . 3. The method according to claim 1, characterized in that when the floating products are removed from the flotator using an overflow system, water is sprayed with the resulting ceramic layer to facilitate its separation from the flotator walls. 4. The method according to claim 1, characterized in that when removing floating products from the flotator using a system of surface strokes, the required number of strokes is determined taking into account the speed of movement, the distance between adjacent strokes and the volume of the product to be removed, and the process mode of removing float products using strokes chosen so that deaeration or destruction of the floating layer as a result of excessive compression is not allowed. 5. Wastewater treatment plant, consisting of separate sections, each of which contains a flocculator having a low-speed mixing device and a line for supplying polymer reagents to the flocculator, a flotator containing a mixing chamber and a separation zone, a post-treatment device, a pressure saturator with a line supply of air-saturated water to the flotator, sedimentation tanks, means for removing floating flotation products and removing treated water from the installation, characterized in that the post-treatment device is an alet is an aerobic biological treatment system for clarified water, consisting of an aeration tank with carriers of immobilized biofilm placed in it, a secondary sump and a line for recirculating activated sludge from a secondary sump into an aeration tank, and a device for hydromechanical processing of activated sludge biomass removed from a secondary sump, with a secondary sump through devices for hydromechanical processing of activated sludge biomass is connected to a flocculator, and each flotator is equipped with a siphon partition for output lennoy water in the aeration tank to an aerobic biological treatment .. 6. Installation according to claim 5, characterized in that, with a flotation process area exceeding 120 m ² , each flotator is equipped with a bottom scraper to facilitate the removal of sediment accumulating at the bottom of the flotator. 7. Installation according to claim 5, characterized in that each pressure saturator tank is made of steel with a protective coating or stainless steel. 8. Installation according to one of paragraphs.5, 6 and 7, characterized in that each pressure saturator tank is made vertical or horizontal. 9. The installation according to claim 5, characterized in that it is equipped with an additional system for regulating the air supply or water flow into the pressure saturator tank. 10. Installation according to claim 5, characterized in that each large-sized flotator is equipped with additional gutters for withdrawing flotation products from the water surface. 11. Installation according to claim 5, characterized in that each flotator is equipped with a ceiling installed above the level of the water mirror to ensure a reduction in air volumes requiring deodorization and to protect the floating layer from the effects of rain and wind. 12. Installation according to claim 5, characterized in that it is equipped with bottom collectors installed in each flotator or with a perforated bottom for collecting water over the entire area of the flotator, or with submersible thin-layer systems that trap air bubbles and coalesce them to create conditions conducive to their ascent, to prevent circulation of flows along the diagonal of the tank by “straightening” the liquid jets due to the diffusion of water saturated with air throughout the flotation area.