SU704904A2 - Inclined settler for separating non-mixing liquids - Google Patents

Claims (2)

..-. I,. This invention relates to separation to a f for separating suspensions or two; x; immiscible liquids and can find, when NieHemie is in chemical, petrochemical and fugue industry, to separate floating impurities and solids from wastewater. An inclined thin layer settler for separating suspensions or two immiscible liquids is known, comprising a housing, a collection of a lightweight component with a branch pipe, located in the upper part of the housing, a collecting chamber of a heavy component with a discharge pipe, located in the lower part of the housing, supply of the initial mixture by the component and inclined parallel partitions evenly spaced in the body., tlJ. Such a sump has an insufficient degree of separation of suspensions or two immiscible liquids. The closest in technical essence and the achieved effect to the expected one is an inclined sump for the separation of immiscible liquids, including a body with inclined partitions, a collection of light liquids. with a pipe for its removal, located in the upper part of the housing, a heavy liquid collection chamber with a discharge pipe located in the lower part of the housing, and a device for feeding the initial mixture of liquids. Each partition is provided with squash compartments located in its upper part, having the shape of a p-shaped; third-party truncated pyramids, the smaller bases of which have mouths and are facing downwards, while the large bases are upward and adjacent to the collection of light liquid. Through 1e pockets of adjacent pereds eodrk. in the chessboard order G2. ; However, this sloped sump has a serious disadvantage. A light liquid, separated from between the inclined partitions and containing small droplets of heavy liquid, enters through pockets. In the pockets, which are a pair of inclined sheets of thin-layer separation with a width of less than the distance between the main inclined partitions, the process of releasing small droplets of heavy liquid continues. These drops on the upper surface of the .tJJM bottom sheets of the through pockets (lower down. After leaving the pocket, the drops of heavy liquid are mixed with the flow, skimming the bottom edge of the sheet of the pocket pockets. As a result of the movement of the drop of the heavy liquid, they are: This leads to their discharge into the collection of light liquid .- .. In addition, the feed pipe of the initial mixture is located in the collection zone of the light component and is not isolated from it. Therefore, solid particles of the initial suspensions, minus the zone of thin layer in oblique partitions they may fall into a clarified stream. The purpose of the invention is to increase the efficiency of separation. , the free ends of the channels are provided with branch pipes for withdrawing the heavy fraction.Figure I shows the proposed settling tank, vertical section; in fig. 2, section A-A in FIG. I. ,, The settling tank consists of a housing 1 with inclined partitions 2, a collector 3 of a light component with a nozzle 4 for its removal located in the upper part of the housing 1, and a heavy component collection chamber 5 with an outlet nai TpySkom 6 located in the lower part Kopnyfca I. Pipe 7 serves to supply the initial mixture for separation. Each perfoss 2 is provided with through pockets 8 located in its upper part. The supply nozzle 7 at its entry point into the upper part of the body 1 is located below the upper edges of the pockets 8. Through the pockets 8 in its lower part have the shape of parallelepipeds, and in the upper part - fory REFLECTED truncated MFA peers, the smaller base and which have heads and are facing down, and the large bases 9 are up and are adjacent to the collection 3 of the lightweight component. The parallelepipeds and smaller bases of the versatile truncated pyramids join each other and have the same cross section. In order to increase the degree of separation, the lower sheets 10 of the through pockets 8 are equipped with inclined chutes 11 having goat 12 along the entire length, and the free ends of the slots 11 are provided with nozzles 13 for diverting the heavy fraction. The lower ends of the pat | rubc 13 are located at the level of the lower edges of the inclined partitions 2 (see Fig. 1), but they can also be located lower, i.e. enter the accumulation chamber 5 of the heavy component. The supply nozzle 7 and the collection 3 of the light component are separated by the Partition 14 in such a way that the partition .14 in the place of abutment of large bases 9 pockets 8 has an ogne with a large cross-section equal to the cross section of large bases 9. The angle of inclination of the grooves 11 relative to the horizontal plane during operation of the proposed settling tank on suspensions, x is taken larger than the angle of repose of the sediment. In order to evenly distribute the inert mixture over the cross section of the settling tank, the through pockets of 8 adjacent inclined partitions 2. Are located in the shakhma-g: ... jHOM in order. The sump works in a sleek way. /, . The initial mixture is fed to the upper part of the settling tank 1 through the supply nozzle 7. The feed mixture, by bending the through pockets 8 from their outer side, is evenly distributed between the partitions 2 and enters the bottom flow first into the thin layer zone between the upper surface of the main inclined partitions 2 and the lower surface of the lower sheets 10 through pockets 8. As you move from top to bottom in this zone, the initial mixture is pre-divided into heavy and light components. The pre-divided mixture, continuing downward movement, enters the concrete wall between the main inclined partitions 2, where the preliminary separation of the mixture continues. With this, the heavy component on the upper surface of the inclined partitions 2 slides into the heavy fraction collection chamber 5, and the light component with copper drops of heavy liquid or fine solid particles on the bottom surface of the inclined partitions 2 rises up and sinks into cKiBoaHbie 8. moving the bottom up lightly (the cut with heavy fine inclusions; in the thin layer zone formed by the lower and upper surfaces of the through pockets 8, the final separation takes place. Those that are separated in the pockets 8 drops of a liquid liquid or fine solids slide on the bottom sheets 10 of the pockets 8, pick up the suction peaks 12, fall into the slope of the groove 11, and of them through the nozzles 13 of the discharge of the heavy component into the chamber 5 of its accumulation, At least 5 a component released in the pre-separation zone, and a heavy component released in the final separation zone (in the pockets 8, unite the pots and through the nozzle 6 is removed from the apparatus. The lighter component, released from the small melt packs, is expelled through the large bridges 9 through the holes of the pockets 8, into the collection 3 of the lighter components and then removed from the apparatus through the branch pipe 4. The invention of the inclined sump for the separation of unmixed liquids from the apparatus 4. The formula of the invention by the fact that, in order to improve efficiency, the bad pockets are well-built. The lateral slopes of the glands, which have goats along the entire length, are parallel to the plane of the partitions, and the free ends of the grooves are provided with branch pipes for diverting heavy fractions. Sources of information taken into account during the examination 1.Baturov V, I., Leibovsky MG. Modern septic tanks for water purification systems. iINTIHimneftemash, M.J 1974, p. 39-40. 2. Author's testimony of the USSR No. 593711, cl. B 0115 51 / OO, 1975, (prototype). Aa