SU1430364A1 - Installation for biological treatment of water - Google Patents

Abstract

The invention relates to the field of liquid cleaning and can be used in the biological treatment of manure-containing wastewater. The purpose of the invention is to intensify the saturation of the aerated liquid with atmospheric oxygen. The installation includes a reservoir 1, a pump 2, a feed pipe 3 equipped with aeration, a nozzle 4 located above the surface of the aerated liquid, and a circulation guide pipe 5 installed in the thickness of the aerated liquid coaxially with the aerated nozzle. The pipe 5 is made in the form of a cylindrical cavity formed by the lower holes of the 5 radially arranged and directed tubes. The top holes of the tubes are located below the surface of the aerated liquid. Each of them is made of separate coaxially arranged tubular sections 6, 7, 8, with the inner diameter of each subsequent section larger than the previous one and the end of each previous section enters the next cavity. From the air / air mixture entering the cylindrical tube 5, air bubbles float through the lower holes of sections 6 and enter radially located and upward sections 7 and 8, allowing the liquid and activated sludge to circulate in them. Then, through the top openings of sections 8, air bubbles float up, crossing the main circulation flow of the liquid and filling it with oxygen. The use of the installation will increase the efficiency of work by 10-15%. 1 hp f-ly, 1 ill. i with from 1 00 about 09 / /.

Description

The invention relates to the purification of liquids, and specifically to devices for airing, and. can be used in sewage treatment plants, in particular in the biological treatment of manure-containing wastewater.

The purpose of the invention is to intensify the saturation of the aerated liquid with air oxygen.

The drawing shows the installation diagram, the cross-section.

The installation includes a reservoir 1, a pump 2, a supply pipe 3, equipped with an aeration nozzle A, located above the surface of the aerated liquid, a circulation guide pipe 5, which is a cylindrical cavity formed by the lower orifices of the radially located and upward pointing tubes consisting of separate coaxially arranged sections 6-8. Here, the diameter of each upstream section 7 and 8 is larger than the diameter of each downstream tubular section 6 and 7, and the upper ends of each lower section 6 and 7 enter the lower end of the upstream sections 7 and 8, respectively.

The installation works as follows.

The recirculated liquid from reservoir 1 is pumped through pipe 3 to aeration nozzle 4, from where it is in the form of a free-falling vertical jet, which captures atmospheric air, saturates liM and forms a water-air mixture, enters the strata of aerated liquid through a cylindrical cavity representing a circulating guide tube 5. When ascending, air bubbles through the bottom openings of the tubular sections 6 fall into the radially and upwardly directed tubular sections 7, ensuring circulation in them dkosti and activated sludge (airlift effect), and then through the upper opening 8 of the tubular sections float, intersect the main circulating stream of fluid and its nasscha oxygen. In this way, contact of the liquid with oxygen in a large volume of structures is ensured with sufficient

the intensity of mixing with activated sludge in the volume of tank 1.

The device of the circulation pipe from the ends of radially located and

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5 0 5 0

so about it

five

upward-directed tubes create the possibility of directional movement of the falling jet down to the bottom of the aeration tank. This is because pop-up air bubbles do not create a counter-current and, consequently, resist the movement of the flow, but are captured by the open ends of the radially arranged tubes and are retracted away from the falling flow. The bubble movement path is lengthened and the oxygen utilization rate increases. Due to the movement of the fluid through the circulation pipe, the radially arranged tubes suck the drainage fluid into the mixture, which moves in the opposite direction to the air flow. Making the tubes with an increasing diameter from bottom to top allows the air bubbles to split up when going from a smaller tube to a larger one, and also to remove the pops of the zoo gel aggregations of sludge moving along the lower edge of the inner surface of the tubes. Removal takes place through a gap formed in the place where the diameter of the tubes changes to the volume of the structure. When the bottom is reached, such a clap of sludge is carried away by a circulating stream of fluid up the structure, repeating its way.

The use of the installation allows to intensify the absorption of aerated liquid by air oxygen and thereby increase the operating efficiency of the structure by 10-15% or, accordingly, reduce the volume of structures and operating costs by reducing the power of the circulation pumps.

Claims (2)

1. A plant for biological purification of a liquid, comprising a reservoir, a pump, a delivery pipe with an aeration nozzle located above the surface of the liquid, and a circulation guide pipe installed in the thickness of the aerated liquid along with an aeration nozzle, characterized in that in order to intensify the saturation of the aerated liquid with oxygen from the air, it is provided with radially arranged and directed upward tubes, the upper openings of which are located below the surface of the aerated liquid. 1430364 and the lower openings of the pipes are made of separate coacons with the formation of a cylindrical section, which is axially located, and the circulation diameter of this sending guide is the inner diameter of each sending pipe, the section that is larger than the diameter of the previous section. 2. Installation according to clauses 1, of tl and h a-dusche and the end of each previous step so that each of the pipe section enters the cavity of the subsequent side, forming a cylindrical section.