SU983078A1 - Apparatus for cleaning domestic and agricultural waste water - Google Patents

Description

INSTITUTION FOR CLEANING HOUSEHOLD AND WASTEWATER AGRICULTURAL

Claims (1)

The invention relates to the treatment of waste water, in particular to the construction of combined devices for the treatment of domestic and municipal wastewater. Also known as azrotek for purification of the stock. water, consisting of a casing with a drainage tray mounted above it, a feed system with air inlets to the aerators and a drainage and drainage unit. The device is equipped with additional bottom aerato, rami, equidistant from the digger and once mixed under the regulated water inlet 1. However, the known device has a number of disadvantages that do not allow effective treatment of wastewater. The location of air intake devices along the bottom of the tank does not both ensure uniform wastewater treatment, installation of additional equipment, in particular azlifts, is required, which complicates the design and leads to additional consumption of metal and air, but this does not ensure reliable sludge pumping and also requires additional time spent on maintenance. The purpose of the invention is to increase the efficiency of use by improving the conditions of air passage and intensifying the wastewater treatment process. This goal is achieved by the fact that the device containing a rectangular case, aerators, a water supply tray with dispersed adjustable inlets of wastewater into the aeration chamber, is provided with transverse, non-reaching to the bottom of the case partitions with baffles forming nozzles placed under the tray, while the latter is installed across the body and its inlets are made in the form of slit holes. KpoNie, in addition, the chamber for upholding the siabj; by the bi- rint flow, made of inclined plates, attached to one another to the opposite walls of the chamber with displacement and overlap in plan of each other. FIG. 1 shows a device, a longitudinal section; in fig. 2 is the same, the plan view in FIG. 3 - camera upholding device. The device consists of an azrotheic body 1, in which there is an aeration chamber 2, with an air inlet 3 connected thereto and an aerator grate 4, which provides for the exit of air by bubbles of a certain size. Inside the valve is lowered valve 5 release 6 of excess sludge. In the upper part of the azritor case, there is a water supply system of the Schney tray 7 with slit-like drain holes 8, -closing adjustable flaps 9. Under the tray 7 there is a connection 10 for supplying air to the tray. The nozzles of the nozzle 10 are located at the level of the cut-off of the tray across the entire width of the zone for the supply of wastewater to the azrotec. 1 Samera is separated by the wall 11 of the azraquing chamber. On the other hand, the chamber 12 is separated by a wall 13 from the clean water zone 14 in the upper part of which there is a drainage tray 15 for draining clean water. The sludge walls 16 are rigidly fixed to the node of the suction and discharge, forming zones in the aerotank that correspond to the width of the slit-shaped drain hole. The chamber can have a labyrinth overflow, made in the form of fender plates 17 placed one below the other at an angle and rigidly fixed to the walls 11 and 13 on each wall the fender of the other wall in the plan overlap each other friend The device works as follows. Sewage water is supplied to tray 7, where it, spreading along the bottom of the tray, flows out through adjustable slit-like drain holes 8 into the tank of the nitrogen tank. At the place of outflow from the receiving tray, the water is saturated with air supplied from the nozzle 10 to supply air to the tray and fall into the zone of activated sludge, which allows intensive oxidation of waste water from the initial moment. The aeration chamber 2 is a volume enclosed between the partition, with the upper overflow of the sludge mixture from the aeration zone to the settling zone and the low-pressure aratation azrit lattices with the partition in front of them to impart darkening movement of the fluid in the aeration tank. High turbulence develops in the air outlet zone of the aerator grates 4, due to which the air is crushed to form an air-air mixture, which, being lighter than water, causes the air to circulate in the aeration tank. The mixture of treated wastewater and activated sludge enters the sludge zone, where the separation of activated sludge and treated wastewater occurs. The treated wastewater rises to the surface of the sludge zone and is fed through the holes in the bottom of the drainage tray into the outlet tube of the nitrogen tank. The active sludge is deposited in the aeration zone. Spill sludge periodically (once every two to four months) is removed from the nitrogen tank to the sludge beds through nozzles with shut-off valves 5. A labyrinth flow is provided for a more complete purification of water in the sludge unit. The use of the proposed device for wastewater treatment provides an economic effect on 1 ton of purified water 0.28 rubles. Claim 1. Device for cleaning domestic and agricultural wastewater, comprising a housing, aerators, a water supply tray with dispersed adjustable inlets of wastewater into the aeration chamber, waste sludge and treated water discharge units, characterized in that, in order to increase the efficiency of use by improving the conditions of air saturation and intensification of the wastewater treatment process, it is equipped with transverse, non-reaching to the bottom of the hull partitions with baffle plates forming a standpiling chamber ubkami air supply nozzle arranged under the chute, the latter being mounted across the frame and its inlets are formed as slotted holes. 2. The device according to claim 1, characterized in that the settling chamber is provided with a labyrinth flow made of inclined plates attached through one to the anti-contra-walls of the chamber and arranged with offset and overlap in plan of each other. Sources of information taken into account during the examination 1. USSR author's certificate No. 742386, cl. C 02 F 3/02, 1978. Z -. 4W4Wi bx -f / fe. DD V zW. J