CS273067B1 - Equipment for water pumping and aerating - Google Patents

Abstract

The equipment consists of a mammoth suction unit (1) with ascending pipe. The mammoth suction unit (1) is equipped with aeration cylinder (2) with solid floor and ribs (21) connected to the inner part of the shell of the mammoth suction unit (1). In the aeration cylinder (2) there is an aeration pipe (22) with holes (221) and air feed (222). Fitted in the upper part of the aeration cylinder (2) between the ribs (21) is a telescopically arranged set of pipe inserts (3) with gradually decreasing diameter of their cylindrical shells. The equipment for pumping and aerating water can be used in wells as a first level of technological treatment of water in underground collectors or for mixing and aerating water in activation tanks for wastewater treatment.<IMAGE>

Description

The device for pumping and aerating water consists of a mammoth suction body 2 with a riser. The mammoth suction body 1 is provided with an aeration cylinder ^{23 with a} fixed bottom and ribs 21 connected to the inside of the casing of the mammoth suction body 2.

In the upper part of the aeration cylinder 2, a telescopically arranged set of tubular inserts 2 ^{with a} gradually decreasing diameter of their cylindrical casings is arranged between the ribs 21.

The water pumping and aeration device can be used in the rooms as a first stage of technological water treatment in an underground collector, or in the cleaning of waste water for mixing and aerating the water in the activation tank.

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CS 273067 Bl

BACKGROUND OF THE INVENTION The present invention relates to a device for pumping and aerating water suitable in particular for process water purification and treatment plants.

Water enrichment with air oxygen is an important process in water purification and treatment technology. Of particular importance are the new types of aeration devices which achieve the highest oxygen saturation of the water with low energy consumption. In practice, various water aeration systems are used. Most often, mechanical aerators or pneumatic-aeration systems are used with blowing compressed air into the water through nozzles of different shape and construction. Various hydropneumatic aeration systems based on the principle of aeration injectors are also used, in which a mixture of air bubbles in the water is formed by the effect of water and air flow. The disadvantages of mechanical aerators and pneumatic aeration systems and hydropneumatic injectors are their complexity, high investment and operating costs and, above all, considerable failure rate * and often low efficiency * and high energy consumption. The main disadvantage of most mechanical and hydropneumatic aerators is the formation of relatively large air bubbles, of which oxygen transfer to water is substantially less than in aerobics with microbubbles.

It has now been found that the disadvantages of the described devices are largely eliminated by the water pumping and aeration device consisting of a mammoth suction body with a riser, according to the invention. The mammoth suction body is provided with an aeration cylinder with a fixed bottom and ribs attached to the inner part of the casing of the mammoth suction body. an aeration tube with openings and air inlet is located in the aeration cylinder.

The invention is based on the fact that a telescopically arranged tubular liner arrangement with a gradually decreasing diameter of their cylindrical casings is arranged in the upper part of the aeration cylinder between the ribs.

By positioning the tubular liner assembly, the flow of water into the annular spaces between the inner wall of the mammoth suction casing and the tubular liners is stepped with a gradually decreasing diameter of their cylindrical casings into the upper portion of the aeration cylinder. By blowing compressed air from the aeration tube openings into the aeration cylinder and the Sa1 through cylindrical slots between the tube inserts into the constricted space of the intake body and the riser, high air turbulence and vortex flow are formed in these spaces with intense mixing of water and air in water. Compared to known devices that produce a mixture of larger bubbles in water, the oxygen transfer to water is significantly increased at lower energy consumption. Due to the improved formation of air microbubbles and their even distribution in the constricted part of the mammoth suction body and the riser, in addition to increasing the oxygen transfer to water, the efficiency of pumping water with compressed air on the mammoth pump principle is increased. The device according to the invention is of extremely simple construction, has no moving parts and does not require a separate pump for pumping water. Its main advantage is the use of compressed air not only for efficient aeration but also for pumping aerated water. The device is highly reliable and has low production and operating costs.

The water pumping and aeration apparatus of the present invention illustrates, but does not limit, the exemplary embodiment shown in the accompanying drawing. 1 is a schematic vertical vertical view, and FIG. 2 shows a vertical cross-section A-A.

The device consists of a mammoth suction body 1 with a riser 11.

In the mammoth suction body 1 there is an aeration cylinder 2 with a fixed bottom and ribs 21 connected to the inner part of the housing, the mammoth suction body 1. In the aeration cylinder 2 is located in the lower part after. one of the aeration tube 22 closed with the slots 221 provided with air inlet 222 at the top of the spiked roller is mounted between the ribs 21 telescopically arranged that the inserts of tube 2 ^{with a} step the decreasing diameter of the cylindrical housing.

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CS 273067 Bl

The pumped water flow in the mammoth suction body 1 is directed into the annular spaces between the inner wall of the mammoth suction body housing 1 and the pipe inserts 3. The compressed air is supplied to the aeration tube 22 via the air inlet 222 from which it flows through the openings 221 into the aeration cylinder 2. cylindrical slots between the tubular inserts 3 into the confined space of the mammoth suction body 1 and the riser 11. In these spaces, a mixture of air-in-water microbubbles is formed by the high turbulence and vortex flow with intensive mixing of water and air. This mixture flows upwardly through the riser 11 due to different densities of the pumped water and the water-air mixture. Simultaneously with the pumping of the water-air mixture based on a mammoth pump, the oxygen transfer from the air bubbles to the water is increased by intensive mixing of the mixture.

The device according to the invention can be advantageously used for pumping and aeration of water in wells as a first stage of technological water treatment in an underground collector, or it can be used in waste water treatment for mixing and aeration of water in a recovery tank.

Claims (3)

OBJECT OF THE INVENTION Water pumping and aeration device consisting of a mammoth suction body with a riser, provided with a fixed bottom aeration cylinder, ribs attached to the inner part of the mammoth suction body shell and an aeration pipe with openings and air inlet, characterized by an air outlet to the upper part. (2) a telescopically arranged set of tubular inserts (3) with a stepwise decreasing diameter of their cylindrical casings is arranged between the ribs (21).