SU1038291A2 - Apparatus for purifying effluents - Google Patents

Description

This invention relates to devices for purifying wastewater from finely dispersed suspended substances and part of dissolved organic, compounds, in particular waste waters of fruit and vegetable canning factories. A device comprising a cylinder-conical case with flotation and settling chambers located therein, units supplying the source liquid and cleaned drainage, units for collecting and removing foam and sludge, a water distributor equipped with a baffle plate and guide baffles and located at a depth of 0.75 -0.8 of the height of the flotation cell. The flotation cell is made in the form of a truncated cone, the shape of which is inclined at an angle of 78-83 ° to the horizontal, and the relation of the water distributor to the base area of the fleet In this case, a uniform distribution of the water / air mixture over the entire cross section of the flotation chamber 1 occurs. A disadvantage of the known device is that the design of the disk water distributor leads to a turbulent flow of air bubbles during their ascent, the creation of whirlpool zones, as a result of which the duration of flotation increases, an inevitable collision of aeroflocules occurs with each other with the subsequent destruction and, accordingly, with a lower ts efficiency of wastewater x water. At the same time, the device is used to treat wastewater only from undissolved substances. The purpose of the invention is to increase the efficiency of purification of STOCHNBK waters from finely dispersed suspended solids with. Simultaneous biochemical oxidation of a part of dissolved organic compounds. This goal is achieved by the fact that a device containing a cylindrical body, a flotation cell in the form of a truncated cone with its generatrix inclined at an angle of 78-83 to the horizontal, and a settling chamber, the source liquid supply and the purge drain, located at the depth of 0.75- 0.80 in the height of the flotation cell The disc water dispenser with the ratio of its area to the area of the flotation cell O, 4-0, 5, as well as with a reflective shield and guided by baffles, is equipped with a block of vertical thin-layer elements in the form of truncated s pyramids disposed in the flotation cell above the water distributor disc. The presence of thin-layer elements allows the flotation cell to be divided into thin layers in the form of a truncated MFA pedestal, as a result of which thin-layer flotation occurs, which helps to prevent the formation of whirlpool zones, i.e. significantly reduce the path of movement of aeroflocs during their ascent and, accordingly, the duration of flotation, and, consequently, the volume of the flotation cell. At the same time, the probability of collision between aeroflocules with each other, i.e. wastewater treatment efficiency increases. In the process of wastewater treatment. Under the action of air oxygen dissolved in water on the surfaces of thin-layer elements, an intensive formation of a biological film takes place, as a result of which a biochemical purification from a part of the dissolved organic compounds in the liquid being cleaned occurs. The dead biological film lags behind the surface of thin-layer elements and promotes flocculation of thin-dispersed substances, i.e. There is an additional increase in the efficiency of wastewater treatment as a result of biocoagulation. To prevent the biological layer from fouling of the biological space, the distance between the thin layer elements, the truncated pyramids, should not be less than 20-30 mm. FIG. 1 shows the proposed device, a vertical section; in fig. 2 - the same, cross section; in fig. 3 the same, in axonometry. The device contains a cylindrical-conical cone, in the upper cylindrical part of which there is an annular settling chamber 1, the flotation chamber 2 is arranged coaxially with it, made in the form of a truncated cone, which is inclined at an angle of 78-83 ° to the horizontal, in which it is buried. a block of vertical thin-layer elements 3, forming: a series of truncated pyramids and a disk water dispenser 4 with a baffle shield and guiding partitions 5. The water dispenser 4 is placed in the flotation cell 2 at a depth of 0.75-0.8. Height and has an area of 0.4-0.5 from the area of the larger base of the chamber 2. The device is equipped with a pipeline b supplying the source liquid, a peripheral tray 7 collecting clarified water and pipe 8 its drain, scraper 9 collecting foam and tray 10 its drain and pipeline II sediment removal. The device works as follows. Sewage water, pre-saturated with air, is fed through pipeline b to a disk water dispenser 4 with its guide partitions 5, which evenly distribute the mixture throughout the section of the flotation chamber 2, and then distribute it to thin layers in the block of layer 3 elements 3. Biological film, the TGA-formed surfaces of the thin-layer elements 3, which come into contact with the liquid to be cleaned, oxidize a part of the dissolved organic compounds, and the measuring biological film lags behind their surface, flocculation It removes fine substances and under the action of aeroflocs formed at the exit of pipeline 6, floats to the surface of the flotation cell 2 as foam, which is removed by the upper scraper 9 into the froth-removal tray 10. The larger non-floated particles enter the lower part of the flotation cell 2. a settling chamber 1 and falling out of the pit that slides along the bottom conical part towards the center and then being removed along line 11. in the lower zone of the settling chamber 1 at certain upward speeds a layer is formed zveshennogo precipitate contributing additional water filtration. Purified water from the settling chamber through the catchment tray 7 is discharged from the device pipe 8. The proposed wastewater treatment unit can significantly increase the effect of wastewater treatment on fine suspended matter (up to 70%) and at the same time reduce the concentration of dissolved organic compounds by 7275% for this type of wastewater. A comparison of capital and operating costs for wastewater treatment of fruit and vegetable canneries produced for cleaning facilities with a capacity of 10 thousand M / day shows that the application of the invention will reduce capital costs by 150 thousand rubles. and operational for 5 thousand rubles. in year.

Yu

FIG

Claims (1)

. DEVICE FOR WASTE WATER TREATMENT by ed. St. No. 691411, characterized in that, in order to increase the efficiency of wastewater treatment from finely dispersed suspended solids with the simultaneous biochemical oxidation of part of dissolved organic compounds, it is equipped with a block of vertical thin-layer elements in the form of truncated pyramids located in a flotation chamber above the disk water distributor. .1038291