LT5799B - Plant intended for mechanical treatment and bio-aeration of sewage - Google Patents

Abstract

The invention relates to the field of wastewater treatment, water treatment plant is for cleaning wastewater in small sewage sources such as private homes, cottages, smaller hotels or factories. Mechanical and biological sewage treatment plant consists of a cylindrical sewage water placement tank (1) and by vertical wall is divided into first tank (2), with anaerobic filter (5) placed in it, activation tank (6) and precipitation tank (7). The first container (2), activation tank (6) and precipitation tank (7) are interconnected. To the first tank (2) top part is fixed sewage water supply pipe (3). At lower part of first tank (2) and activation tank (6) there are aeration means (4) In precipitation tank (7) there is placed round wall (12) with a tubular drain channel (9) on the outer shell with a transfusion edge (8). In addition, the tank (7) is a cone-shaped, widening toward upper part of the tank (1) and is with a pump (13). First tank (2) contains internal and external reinforcements, and the a

Description

The invention relates to the field of wastewater treatment, namely to treatment plants for treating wastewater from small sources of pollution, such as private homes, connected homes, smaller hotels or factories in cottages.

There are many wastewater treatment plants with circulating reactors or spiral coil reactors, often used in low and medium capacity treatment plants.

Known purifiers are inefficient because they use little oxygen and are unsuitable for aeration using water spray. Aeration occurs when previously activated reactor parts are alternately submerged in air and water. As a result, the efficiency of the purifiers is inadequate because it uses colloidal suspension cultures at rest and therefore the oxygen performance does not meet the desired efficiency.

Most of these purifiers have uneven drive shaft loads, which are subject to relatively significant resistance to the surrounding environment, leading to frequent failures and situations where the purifiers become unusable. This is especially true for tubular biocontactor-based treatment plants, where environmental resistance becomes the cause of uneven shaft load and, at the same time, drive unit load.

Many other water purification units are made of square tanks that contain sludge storage and activation. The purified water is pumped from the waste water to the activation tank. Such a device is too complicated as it requires the use of a pumping device and a valve control system.

An anaerobic wastewater treatment plant is disclosed in the specification of SU 1,699,961, which incorporates a mechanical agitator for the internal partitions of the housings, pipelines for the treatment of wastewater, purified wastewater biogas and condensate drainage, electrically operated valves and relays for hydro barriers.

The disadvantage of such a device is that its construction is complicated and at the same time difficult to operate, it is difficult to regulate the concentration of active anaerobic sludge, and to maintain a constant optimum substrate temperature.

Also known is the method and apparatus for treating wastewater under anaerobic conditions, as disclosed in Patent Specification LT 3581, C02F 3/00, issued by SEMA AB, as published on December 27, 1995, as well as in the patented patent LT 4449 of SEMA AB. published on 25/01/1999, which discloses an anaerobic wastewater treatment plant comprising a secondary planter, housed inside a housing, having internal baffles and at least two symmetrically arranged mechanical agitators, sewage supply and treated sewage collection and discharge pipelines; as well as a pipeline for returning active anaerobic sludge to the unit.

The disadvantage of the aforementioned wastewater treatment plant is the complexity of their construction and, consequently, their complicated operation. Organic decomposition by anaerobic microorganisms involves the forced mixing of the substrate to be treated, the rate and direction of the effluent being regulated, and the separation of the activated sludge must be carried out under pressure in an airtight environment, requiring accurate and accurate measuring and control devices.

The closest design and achievable wastewater treatment efficiency is technical solution RU 84 014 UI, C02F 3/00, published June 27, 2009, where the biological wastewater treatment plant consists of an activating purification chamber fed to the wastewater and housed in a purge unit as well as a longitudinal settling tank having a collection spout and a purged water removal spout having a length to width ratio of not more than 1: 2 in the longitudinal purification tank, the activating cleaning chamber having at least one agitator and the longitudinal settling tank having manipulative recesses; the device requires at least one auxiliary process medium in the activating cleaning chamber.

The disadvantage of this solution is that the unit is complex, has many perishable parts, especially the unit is vulnerable to the release of larger solid pollutants, difficult fault removal, can only clean sewage contaminated with sludge and soft sediment and does not provide environmental protection from contamination.

The object of the invention is to provide a reliable, inexpensive complex wastewater treatment plant suitable for the treatment of wastewater from low pollution sources, characterized by low power consumption, rare component failure, reduced sludge production and high purification efficiency, e.g. an installation that does not have the above-mentioned mechanical and biological treatment plant deficiencies.

It is an object of the invention that the mechanical and biological wastewater treatment plant comprises a vertical cylindrical reservoir divided by vertical walls into an initial tank containing an anaerobic filter, an activation tank and a settling tank, wherein the initial tank containing the anaerobic filter and the settling tank are connected to each other, in addition a drainage pipe is attached to the upper part of the initial container, aeration means are provided in the lower part of the initial container and the lower part of the activation tank and a submerged round wall is provided in the middle of the upper part of the settling tank. drain channel.

In a mechanical and biological wastewater treatment plant, the settling vessel is conical, extending towards the top of the reservoir, and the initial vessel has internal and external reinforcements to ensure durability, and the activation vessel has a tubular channel with a filter.

In a mechanical and biological wastewater treatment plant, a settling tank is provided with a pump.

The wastewater feeds into the initial tank where insoluble contaminant sedimentation occurs and sludge stabilization continues. In the initial container, the effluent is intensively aerated using an aeration device. Purified and aerated water continues to flow through a built-in anaerobic filter, where larger pollutants are removed and then drained to the activation tank. The activation tank is undergoing biological treatment. In the activation tank containing the filter, the effluent is aerated and mixed using aeration means, the activated mixture flows through the filter and drains into a settling tank through a tubular channel where biological separation of sludge and purified water occurs. The clean water drains under the round submerged wall and flows through the overflow edge into the tubular drainage channel. The cleaned and thickened sludge is pumped from the bottom of the tank to the activation tank where it is sedimented and further stabilized. The aeration means, the anaerobic filter and the pump are connected via ducts to the air distribution means. The air distributor is connected to a diaphragm magnetic compressor to reduce energy demand.

The equipment provided for mechanical and biological treatment of wastewater is easy to install and uses inexpensive materials such as polypropylene, easy connection of supply and drain pipes.

Another advantage is the low weight of the unit and the low number of mounting elements. The unit does not require intensive maintenance because of the low sludge production and high cleaning efficiency.

A major advantage is the efficient utilization of the internal cylindrical reservoir space and the placement of specific tanks to facilitate access during installation and maintenance.

The main advantage is that with proper reinforcements and aeration of the connecting tubular duct, the unit operates without an unpleasant odor.

DETAILED DESCRIPTION OF THE INVENTION The drawings show:

FIG. 1 - horizontal section of the device,

FIG. 2 is a side view of the device,

FIG. 3 - vertical section of the device.

The device according to the technical solution shown in Figures 1-3 comprises a vertical cylindrical reservoir 1 divided by vertical walls into an initial receptacle 2 containing an anaerobic filter 5, an activation receptacle 6 and a settling receptacle 7. and internal 10 and external 11 fasteners for durability. The lower part of the initial container 2 and the lower part of the activation container 6 are provided with aeration means 4. The activation container 6 has a tubular channel 14 with a filter. The settling vessel 7 is conical, extending towards the upper part of the reservoir 1 with a circular wall 12 in the center thereof and an overflow edge 8 with a tubular drainage channel 9 on the outer jacket.

The mechanical and biological wastewater treatment plant operates in this way. The wastewater flows through the feed pipe 3 to the initial tank 2 where sedimentation and sludge stabilization of the larger and insoluble materials takes place. The wastewater in the primary tank 2 is intensively aerated using aeration means 4. Purified and aerated water is passed through an in-built anaerobic filter 5, where the water loses the remaining major pollutants and continues to the activation tank 6. Biological treatment of water waste and wastewater takes place in the activation tank 6. Activation the container 6 is aerated using aeration means 4 having a high aeration efficiency. These aeration means 4 act as a mixing system which causes the necessary water turbulence in the biological zone and adds the amount of oxygen required for bacterial growth. The activation tank 6, as previously described, has a filter, such as a Matala® filter coupled to a tubular channel 14, wherein the activation channel flows into the settling tank 7 via a tubular channel with a Matala® filter. This is where biological sludge is separated from clean water. The clean water passes under the submerged wall 12 and flows through the overflow edge 8 into the drainage duct 9. Separated biological and condensed sludge is pressurized by a pump 13, such as a mammoth pump, pumped from the bottom of a settling tank 7 back into the activation tank. 6 in which its sedimentation and subsequent stabilization occurs. The pump 13 is actuated by means of an electromagnetic valve which is connected to the diaphragm electric compressor by means of an air jet.

The mechanical and biological wastewater treatment plant can be used in private homes, smaller hotels, production units and so on. in construction as a water and wastewater treatment plant. Such a mechanical and biological wastewater treatment plant is easy to install, made of simple, inexpensive materials, and features an easy-to-install feed and drain pipe system.

Claims (3)

DEFINITION OF INVENTION 1. Mechanical and biological wastewater treatment plant having a wastewater storage tank (1) provided with a wastewater supply means, a settling tank for wastewater activating and aeration means, an anaerobic filter and purified water and waste disposal means, characterized in that the wastewater storage tank is cylindrical , divided by vertical walls into an initial container (2) containing an anaerobic filter (5), an activation container (6), and a settling container (7), wherein the initial container (2) having an anaerobic filter (5), the activation container (6) and the settling tank (7) is interconnected and a drainage pipe (3) is attached to the upper part of the initial tank (2), the lower part of the initial tank (2) and the lower part of the activated tank (6) have aeration means (4), and a circular wall (12) is located in the middle of the upper part of the settling tank (7), which the ale has an overflow edge (8) with a tubular drainage channel (9). 2. A device according to claim 1, characterized in that the settling vessel (7) is conical, extending towards the upper part of the reservoir (1), and the initial vessel (2) has internal (10) and outer (11) reinforcements, and the activation container (6) having a tubular channel (14) with a filter. 3. Apparatus according to claim 1 or 2, characterized in that the settling tank (7) is provided with a pump (13).