RU2082683C1 - Water basin aeration installation - Google Patents

Abstract

FIELD: water aeration. SUBSTANCE: invention focuses on natural and artificial basins, in particular, dead zones arising when cleaning household and industrial waste water in oxidation ponds. Installation contains anchored pontoon with, disposed on it, engine, air intake, water intake pipeline and dispersing arrangement with through openings in walls of elastic hoses, water pump, water-intake and air pipelines. Installation is provided with collecting tank with level and air release control unit and water drain pipeline, receiver, and retaining valves. Engine is constructed as wind mechanism mechanically connected with water-intake pipeline with filter on its entry and, through retaining valve and pipeline, with collecting tank located above pontoon waterline. Collecting tank also communicates through air-intake pipeline and retaining valve with air intake and, through air pipeline, receiver, and retaining valve, with dispersing arrangement having annular delivery mechanism. EFFECT: improved design. 4 cl, 5 dwg

Description

 The invention relates to devices for the protection of the aquatic environment, and can be used in oxygen enrichment of natural and artificial reservoirs and, above all, stagnant zones, for the treatment of domestic and industrial wastewater, in biological ponds.

A known aerator containing a floating base, fixed in place with an anchor, and equipped with several air intakes, moreover, the floating base is made in the form of two wings connected by side planks and facing the convex sides of the profile, and the air intakes communicated with the narrowest section between the wings, wherein the base is located either on the surface of the water or under its level [1]
A disadvantage of the known aerator is the insufficient efficiency of its work due to low productivity.

A device for aerating water in reservoirs is also known, comprising a pontoon moving around a central support with units for supplying and dispersing air. Moreover, it is equipped with a reflector shield located above the unit for dispersing air and having two supports, one of which is made in the form of a horizontal shaft located at the level of the water mirror perpendicular to the direction of movement of the device and connected by the ends with the pontoon, and the other in the form of devices for fixing the angle of inclination of the shield-reflector, for example, a jack screw pivotally mounted on the opposite edge of the shaft of the shield-reflector [2]
The disadvantage of this device is the lack of effectiveness of its work due to the difficulty of constantly providing the necessary tilt angles of the reflector shields.

Known and mobile floating pneumatic mechanical aerator containing a pontoon with a sealed platform, a jet nozzle, a guide tube, a disk drive (turbine-dispersant), a fan, a horizontal two-beam intake pipe and a disk (turbine-disperser) [3]
The disadvantage of this aerator is the lack of efficiency of its work due to the high energy consumption.

Closest to the proposed is the installation for aeration of reservoirs, which includes such common features as the anchored pontoon with an engine, an air intake and a disperser in the form of air ducts with through holes in the walls of elastic hoses, sunk by anchors along the profile of the bottom of the reservoir [4]
However, the efficiency of such a plant is low due to the high energy consumption.

 The purpose of the invention is to increase efficiency and reduce energy costs through the use of wind energy, which is achieved by the fact that the installation for aeration of ponds is additionally equipped with a water pump, air intake and air pipelines, a storage tank with a set and descent control unit and a water drain pipe, a receiver and non-returnable valves, and the engine is made in the form of a wind mechanism, mechanically connected to a water intake pipe having a filter at the inlet, and through a non-return valve n and a pipeline with a storage tank located above the level of the pontoon waterline and connected through an air intake pipe and a non-return valve with an air intake and through an air pipe, a receiver and a non-return valve with a disperser having an annular distributor.

 The set and descent control unit is electromechanical, has an autonomous power supply or connected to the wind mechanism, electromagnetic valves are installed in the pipelines at the air and water inlet and outlet, electrically connected to an automatic control electric unit, a power supply, and electromechanical sensors are located in the storage tank electrically connected to an electric control unit.

 The control and air bleed block contains a water discharge regulator, an air bleed regulator, an air intake regulator, consisting of floats and elastic elements, the air intake regulator being a stop valve located at the entrance to the storage tank from the air intake pipe from the air intake in the guide pipe with through holes at the top a needle connected through a compression screw spring to a float connected through a tension screw spring to the bottom of the storage tank, while in the lower part vlyayuschey pipe through holes, and the air release controller comprises a needle, a rod, a rocker arm rolling bearing, a hinge, a float on the bracket and the coil spring. In this case, the needle located at the inlet of the air pipe connected to the receiver is connected through the rod to one end of the beam mounted on the housing of the storage tank using the rolling support, and the other end of the beam through the hinge is connected to the bracket on which the float is rigidly fixed. The rod through a coil spring is connected with the housing of the storage tank, and the beam and the bracket have oncoming bevels. The water discharge regulator comprises a locking plate, an elastic element, a float and a guide rod, the locking plate being installed at the outlet of the storage tank to the water discharge pipe and through an elastic element is connected to a float located on the guide rod rigidly connected to the housing of the storage tank.

 The automatic control unit contains electromechanical water level sensors, and the electric supply circuits of the electromagnetic valves solenoids contain normally open contacts of electromagnetic relays included in the water level sensor circuits, which are connected in series with limit switches connected to the floats of the water level sensors.

 In the claimed device for dispersing air uses the energy of the wind or its gusts. The wind and its gusts rotate the propeller of the wind mechanism, which is oriented in the wind by means of a windshield mounted on a pontoon using a support. The safe operation of the wind mechanism of the installation for aeration of ponds is ensured by a protective grill surrounding the rotor area of the propeller and fly-bar around the support on the pontoon. The rotation of the propeller through a mechanical transmission ensures automatic pumping of air through water through a water pump from the storage tank (air automatically enters through the air intake and a non-return valve from the atmosphere) through the receiver into a ring distributor made in the form of a pipeline through which air enters the radial tubular dispersants with through holes. Radial tubular dispersants are connected in series along the length with floating buoys, which are anchored with anchors, which ensures that the tubular dispersants are separated at a certain height from the bottom of the reservoir and eliminates the possibility of clogging with the bottom sludge of the through holes of the radial tubular dispersants. When performing the air dispersant in the form of a spiral pipeline, air is sequentially passed through the through holes into the water along the entire length of the spiral pipeline. After the air leaves the dispersant in water, small bubbles form, which form an ascending flow of the aerated liquid due to the flotation effect. Particularly effective is the operation of such a plant for aeration of ponds in winter, when the problem of aeration of water is most important for maintaining the life of living organisms in water, including fish. Aeration of water is the saturation of water with atmospheric oxygen. Water aeration can be carried out in water treatment plants for the purpose of iron removal (iron hydroxide separation from water), as well as for removal of free carbon dioxide and hydrogen sulfide from water, which significantly improves the quality of water used for drinking and industrial purposes in biological wastewater treatment plants ( aerostanks, aerofilters, biofilters) to ensure the life of microorganisms (aerobic bacteria) that accelerate the mineralization of organic substances dissolved in wastewater and other pollution.

 Figure 1 shows a device for aeration of ponds; figure 2, the control unit set and descent of air at a water level below the level of operation; in FIG. 3 the same when draining water and air; figure 4 the same, after draining the water and the descent of air, when it is taken from the atmosphere; 5 is a diagram of an electrical unit for recruiting and releasing air.

 The device for aeration of ponds comprises a wind mechanism 2 mounted on the pontoon 1, consisting of a propeller 3 and a fly wing 4. The wind mechanism 2 is mounted on the pontoon 1 using a support 5 and is connected through a mechanical transmission 6 to a water pump 7 connected to the intake pipe 8, having a filter 9 at the inlet, through a non-return valve 10 and a pipe 11 with a storage tank 12. The storage tank 12 located above the level of the waterline of the pontoon 1 through the intake pipe 13 and the non-return valve 14 is connected to the air through intake 15 and air conduit 16, the receiver 17 and the non-return valve 18 is connected with the disperser 19 in the form of an annular distributor duct 20 and with through holes 21, submerged-weighted anchors 22 the profile of the bottom of the reservoir. The storage tank 12 is equipped with a control unit 23 of the set and release of air and has a pipe 24 drain water. Pontoon 1 is anchored by an anchor rope 25 to an anchor 26. Air ducts 20 are connected to floating buoys 27, which are anchored by anchor ropes 28 to anchor sinkers 22. A protective net 29 is installed on the pontoon 1 around the turning area of the propeller 3.

 The control unit 23 of the set and the air outlet has a power supply 30. In the pipelines at the inlet and outlet of air and water, electromagnetic valves 31-33 are installed, electrically connected to the electric control unit 34 and the power supply 30. Sensors 35, 36 are located in the storage tank 12 and 37 water levels associated with the electric automatic control unit 34. The control unit 23 of the intake and air discharge contains a water discharge regulator, an air release regulator, an air intake regulator consisting of floats 38, 39 and 40 and elastic elements 41-44. The air intake regulator is at the entrance to the storage tank 12 from the intake pipe 13 from the air intake 15 in the guide pipe 45 with through holes 46 at the top, a locking needle 47 connected through a compression spring 43 to a float 40 connected through a screw spring 44 to the bottom storage tank 12. In the lower part of the guide pipe 45, through holes 48 are made. The air release regulator includes a needle 49, a rod 50, a rocker 51, a rolling support 52, a hinge 53, a float 39 on the bracket 5 4 and a coil spring 42. The needle 49 is located at the inlet of the air pipe 16 connected to the receiver 17, through the rod 50 is connected to one end of the rocker arm 51 mounted on the housing of the storage tank 12 using a rolling support 52, and the other end of the rocker arm 51 through the hinge 53 connected to the bracket 54, on which the float 39 is rigidly fixed. In this case, the rod 50 through the spring 42 is connected to the housing of the storage tank 12. The beam 51 and the bracket 54 have opposing bevels. The water discharge regulator comprises a locking plate 55, an elastic element 41, a float 38 and a guide rod 56. A locking plate 55 is installed at the outlet of the storage tank 12 into the water discharge pipe 24 and is connected to the float 38 located on the guide rod using a tension spring 41. 56, rigidly connected with the housing of the storage tank 12. The electric automatic control unit 34 includes water level sensors 35-37. The electric power circuits of the electromagnetic valves 31-33 contain normally open contacts 57-59 of the electromagnetic relays 60-62, included in the circuit of the water level sensors 35-37, which are connected in series with the limit switches 63-65, connected with the floats 38-40 of the sensors 35- 37 water levels.

 Installation for aeration of water works as follows.

 The wind and its gusts rotate the propeller 3 of the wind mechanism 2, which is oriented in the wind by means of a windshield 4 mounted on the pontoon 1 using the support 5. Safe operation of the wind mechanism 2 of the installation for aeration of water bodies is ensured by the protective grill 29 surrounding the pontoon 1 zone of rotation of the propeller 3 and flycars 4 around the supports 5. The rotation of the propeller 3 drives the mechanical transmission 6 and the water pump 7, which through the intake pipe 8, having a filter 9 at the inlet, through A check valve 10 and a pipe 11 supplies water to the storage tank 12. In the upper part of the storage tank 12 there is air that enters into it from the atmosphere through the air intake pipe 13, a non-return valve 14 and an air inlet 15. Air intake into the storage tank 12 is regulated by the air intake regulator. In this case, the needle 47 is pressed against the inlet of the air intake pipe 13 by a spring 43 connected to the float 40 located in the guide pipe 45 with through holes 46 and 48. Water is supplied by the water pump 7 to the storage tank 12 to a certain level, compressing the air in its upper part .

 The air release regulator using a needle 49, connected by a spring 42 with a storage tank 12 and located on the rod 50, connected to the rocker arm 51 installed in the storage tank 12 by means of a rolling support 52, keeps the air in the storage tank under pressure until the water reaches a certain level, in which the float 39, rigidly mounted on the bracket 54, rises, turning around the hinge 53, and raises the end of the rocker arm 51, which rotates around the rolling support 52. As a result, the other end of the rocker arm 51 connected about the rod 50 and the locking needle 49, is lowered, allowing the release of air from the storage tank 12 through the air pipe 16, the receiver 17 and the non-return valve 18 into the ring distributor 19. The water discharge controller allows water to enter the storage tank 12, locking the locking plate 55, connected spring 41 with a float 38 located on the guide rod 56, the outlet in the pipe 24 to drain the water to a certain level at which air is discharged, and then the float 38 by means of the spring 41 raises a support plate 55, providing drainage of water. At the same time, the float 40 of the air intake regulator is also lowered and pulls the locking needle 47 by means of the spring 43, providing air intake into the storage tank 12 through the inlet of the intake pipe 13. This process is constantly repeated, providing air through the annular regulator 19 into the tubular dispersers 20 with through holes 21. The tubular dispersers 20 are successively connected along the length with buoys 27, which are anchored with anchor ropes 28 and anchor weights 22, which ensures the separation of bchatyh dispersers 20 at a certain height from the bottom of the reservoir and eliminates the possibility of clogging benthic sludge through holes 21. Upon exiting the air from dispersing fine bubbles 20 are formed that are formed due to the effect of flotation ascending aerated fluid flow. Pontoon 1 is held in place by an anchor rope 25 and an anchor 26.

 When used in an installation for aeration of water bodies of an electric control unit, an electromechanical control unit for air intake and exhaust, it works as follows.

 Similarly to the above, the water pump 7 through the intake pipe 8, having a filter 9 at the inlet, through the non-return valve 10 and the pipe 11 delivers water to the storage tank 12, in the upper part of which there is air received into it from the atmosphere through the intake pipe 13 and the air intake 15 and held in the storage tank 12 by an electromagnetic valve 31 connected through contacts 58 of the relay 61 to the automatic control unit 34 and the power supply 30. Water and air in the storage tank 12 are held by an electron flanged valves 32 and 33, respectively connected by contacts 57 and 59 of the relay 60 and 62 with the automatic control unit 34 and the power supply 30. The power supply can be connected in the usual way with a battery or generator operating from the wind mechanism 2. When the water reaches a certain level in the storage tank 12, water level sensors 35-37 are triggered. The float 40 of the water level sensor 37, mechanically connected to the limit switch 65, pops up, closes its contacts, supplying power to the relay 62 from the power supply 30. The normally open contact 59 of the relay 62 closes, supplying in turn power to the electromagnetic valve 33, which opens and provides the supply (discharge) of air from the storage tank 12 through the air pipe 16, the receiver 17 in the ring distributor 19. The automatic control unit 34 also provides the response of the electromagnetic valve 32, in the power circuit which From the power supply unit 30, there are contacts 57 of the relay 60, which in turn receives power from the power supply unit 30 when the contacts of the limit switch 63 are closed, which occurs when the float 38 of the water level sensor 35 mechanically connected to it emerges. As a result, water is drained from the storage tank 12 overboard. The automatic control unit 34 also provides the operation of the electromagnetic valve 31, in the power supply circuit of which from the power supply 30 there is a contact 58 of the relay 61, which is powered by the power supply 30 when the contacts of the limit switch 64 are closed mechanically connected to the float 39 of the water level sensor 36. As a result when the valve 31 is actuated, air is drawn into the storage tank 12. In this case, the automatic control unit 34 and the relays 60-62, which operate with a time delay, ensure the operation of the installation in the next Consistency: first, air is drained, after it is drained, and then, lastly, air is taken into the storage tank 12, after which the pump 7 starts to supply water to the storage tank 12. The process is repeated, and air is supplied through the ring distributor 19 into tubular dispersants 20 with through holes 21 and further similarly to the above.

Claims (4)

 1. Installation for aeration of ponds, containing an anchored pontoon with an engine, an air intake, an intake pipe and a disperser in the form of air ducts with through holes in the walls of elastic hoses, sunk by anchors along the bottom profile of the reservoir, characterized in that it is equipped with a water pump, an air intake and air pipelines, a storage tank with a control unit for air intake and discharge and a water drain pipe, a receiver and non-return valves, the engine is made in the form of a wind mechanism, mechanically connected to a water intake pipe having a filter at the inlet, and through a non-return valve and a pipe with a storage tank located above the pontoon waterline and connected through an air intake pipe and a non-return valve with an air intake and through an air pipe, a receiver and a non-return valve with a disperser having a ring distributor.  2. Installation according to claim 1, characterized in that the air intake and exhaust control unit is electromechanical, has an autonomous power supply unit or connected to the wind mechanism, solenoid valves are installed in the pipelines at the inlet and outlet of air and water, electrically connected to the electric unit of automatic regulation, the power supply, and in the storage tank are electromechanical water level sensors, electrically connected to the electrical control unit.  3. Installation according to claim 1, characterized in that the air intake and exhaust control unit comprises a water discharge regulator, an air discharge regulator, an air intake regulator consisting of floats and elastic elements, the air intake regulator being at the entrance to the storage tank an air intake pipe from the air intake in the guide pipe with through holes at the top of the located needle connected through a compression screw spring to a float connected through a screw tension spring to the bottom of the drive through the hole, while in the lower part of the guide pipe, through holes are made, and the air release regulator contains a needle, a rod, a rocker arm, a rolling support, a hinge, a float on the bracket and a coil spring, the needle located at the inlet of the air pipe connected to the receiver, through the rod it is connected to one end of the beam mounted on the housing of the storage tank using a rolling support, and the other end of the beam through the hinge is connected to the bracket on which the float is rigidly fixed, while the rod through the screw the spring is connected to the housing of the storage tank, and the beam and the bracket have opposite bevels, while the water discharge regulator comprises a locking plate, an elastic element, a float and a guide rod, and the locking plate is installed at the outlet of the storage tank into the water discharge pipe and is connected through an elastic element with a float located on the guide rod, rigidly connected with the housing of the storage tank.  4. The installation according to p. 3, characterized in that the automatic control unit comprises electromechanical water level sensors, and the electric power supply circuits of the electromagnetic valves solenoids contain normally open contacts of the electromagnetic relays included in the water level sensor circuits, which are connected in series with limit switches, associated with floats of water level sensors.

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