RU2013116632A - METHOD FOR CLEANING HOUSEHOLD AND INDUSTRIAL WASTE WATERS WITH RELAXATION OF USED DEVICES - Google Patents

Abstract

A method for treating household and industrial wastewater waste and relaxation of the devices used for these purposes, comprising supplying wastewater to a receiving device equipped with a differentiated distributor of flow and pressure of wastewater, where hydraulic mixing is carried out by a pump connected to pipelines, from where the wastewater served in an aeration tank equipped with a step partition, then the wastewater is fed into a step aeration system, where, using a second pump and an intake manifold, at the inlet of a stream of industrial wastewater passing through a denitrifier and nitrifier with a filtering membrane module and a vacuum manifold connected to pipelines supplying purified industrial wastewater, and relaxation of the equipment used by this method, characterized in that the initial volume of household and industrial waste waste water and relaxation of the used devices (1) is fed through a pressure pipe (2) through a self-cleaning filter device (3), and after filtering through a mesh of arm of amide (4) or other special material consisting of oil product fibers with a profile and 2 mm spacing, mechanically treated industrial wastewater (1) is discharged into the averaging tank (5), followed by pumps (6-8) feeding into the biological treatment tank (9) a portion volume of industrial wastewater (1), and the biological treatment tank (9) contains at least one parallel line consisting of a denitrifier (10) and an aeration tank-nitrifier (11) containing a combined, interconnected piping system mass media

Claims (1)

A method for treating household and industrial wastewater waste and relaxation of the devices used for these purposes, comprising supplying wastewater to a receiving device equipped with a differentiated distributor of flow and pressure of wastewater, where hydraulic mixing is carried out by a pump connected to pipelines, from where the wastewater served in an aeration tank equipped with a step partition, then the wastewater is fed into a step aeration system, where, using a second pump and an intake manifold, at the inlet of a stream of industrial wastewater passing through a denitrifier and nitrifier with a filtering membrane module and a vacuum manifold connected to pipelines supplying purified industrial wastewater, and relaxation of the equipment used by this method, characterized in that the initial volume of household and industrial waste waste water and relaxation of the used devices (1) is fed through a pressure pipe (2) through a self-cleaning filter device (3), and after filtering through a mesh of arm of amide (4) or other special material consisting of oil product fibers with a profile and 2 mm spacing, mechanically treated industrial wastewater (1) is discharged into the averaging tank (5), followed by pumps (6-8) feeding into the biological treatment tank (9) a portion volume of industrial wastewater (1), and the biological treatment tank (9) contains at least one parallel line consisting of a denitrifier (10) and an aeration tank-nitrifier (11) containing a combined, interconnected piping system mass media with rometric openings that divide the mass of a portion of the air volume at the same time to several pipelines, each of which has a step-by-step installation of outlet openings for uniform air supply to the aqueous medium, and when using disk-shaped spheroidal atomizers of air in the aqueous medium, which provide microdiffusion of air bubbles simultaneously for each of pressure holes, where the latter is equipped with a medical bubble aeration system (12) that maintains the concentration of dissolved oxygen in the ax 2-3 mg / l, which promotes the oxidation of organic substances (13) and their nitrification at a given concentration of dissolved oxygen, regulated by an oximeter (14) and differentiating the bioreactor blower working process (15) using a frequency converter (16), while simultaneously preventing deposition silt mixture (17) in the denitrifier (10) a mixer (18) or a gyrator (19) is installed, the process is accompanied by oxidation of activated sludge (20) under anoxic conditions with the release of free nitrogen (21), moreover, in the denitrifier (10) using immersion membrane cassettes (22) with membrane modules (23), phase separation of purified water (24) and activated sludge (20) is carried out by using hollow fiber polyvinylidene fluoroid compositions (26) with membrane pores of 0.04-0.2 μm, where permeate (27), carried out by the action of a weak vacuum (28), formed by the suction pipe (29) of a centrifugal pump (30) at a given capacity of the permeate pump (31), controlled by a frequency converter (16), which is why the dose of activated sludge (20) in the ICBM is maintained within 4-10 g / l in proportion to Avto household and industrial wastewater waste, while the permeate (27) is fed into a clean water tank (33), from where the latter flows by gravity to the ultraviolet disinfection unit (34), then the disinfected wastewater (35) is taken to the tank of the vehicle (36) or into a water body (37), after which, for washing the membranes (38), use a backwash pump (39), which is alternated with a relaxation mode, stop the selection of permeate (27), without turning on the backwash pump (39), which reduces energy consumption and increases peri odes between backwashes, while the fraction of activated sludge (21) is pumped from the end of the nitrifier (11) to the denitrifier (10) with a submersible circulation pump (39) and due to recirculation they provide denitrification and uniformity of activated sludge (21) inside the unit, and into the stream circulating activated sludge (21) with a metering pump (39) serves a solution of ferric chloride (40) for the reactive removal of phosphorus by a metering pump (39), at the same time the treatment pavilion (42), with the pumps located in it, are included in the treatment facilities (6- 8, 30, 31.39, with an agent (40, 47, 48), a sludge dewatering unit (42) with bag filters (43), thickener drums, belt filters with presses or centrifuges, a blower station (44) with two groups of units (15 and 46), where the first group units (15) consists of blowers and supplies air to nitrification aeration tanks (11), and the second group of units (46) is used to supply air under membrane cartridges and to mix wastewater (1) in the averaging tank (5), and air cleaning and backwashing are used as under holding membranes, where along with them preventive cleaning is provided with a sequence of backwashes with sodium hypochlorite (47) or citric acid (48), while the preventive cleaning of membranes (38) is carried out without removing them from the aeration tank-nitrifier (11), which is why the frequency of preventive purification depends on the specifics of the facility and the quality of the incoming wastewater (1) from 1-2 times a week, while membrane fouling (38) occurs as a result of the accumulation of organic substances or crystallization of salts in the pores of the membranes fibers requiring reconstructive cleaning of the membranes (38) from 1-2 times a year, which consists in soaking the membranes (38) in solutions of the same reagents (40, 47. 48, 49) for several hours during a minimum influx of wastewater ( 1) through the use of the volume of the averager (5).