LT4175B - Aerobical device for treatment of a waste water - Google Patents

Abstract

Invention applies to the field of bioengineering, namely to anaerobic wastewater treatment equipment. The proposed equipment consists of a single tank, where there is an aeration chamber and a settler, and in the centre of the equipment, in the aeration chamber, there is a deflecting tube with an air supply pipe mounted inside.

Description

The invention relates to the field of biotechnology of wastewater treatment, namely to aerobic wastewater treatment from organic pollutants.

Known Wastewater Treatment Plant - Oxytene, in the form of a cylindrical vessel with an internally arranged cylindrical baffle that divides the entire volume into the aeration zone (center section) and sludge planter (perimeter) according to Syakovlev and others, Sewerage 253 - 256, Moscow, Strojizdat

A disadvantage of the known device is that a mixer is installed in the planter to continuously feed the sludge into the aeration zone and increase its activity. As a result, wastewater treatment with this unit is more expensive due to the extra energy required to mix the sludge in the planter and feed it to the aeration zone and the design of the mixer itself. The pressurized water is required to feed the treated wastewater, which requires additional equipment - to pump the treated wastewater into the aerotank.

In order to simplify the construction of the wastewater treatment plant and to increase its relative efficiency (the effluent capacity per unit volume of the wastewater treated), a device has been developed to accomplish this purpose. The unit consists of a cylindrical vessel divided into two separate zones, the aeration chamber and the planter, with a deflector tube with an internally mounted conduit for supplying air to the unit.

The proposed device design, constructional solution, dividing one container into separate chambers, installing a deflector inside the aeration zone with a diffuser air inlet, a long recirculated sewage overflow threshold, no moving parts ensures a high degree of wastewater treatment and lower efficiency volume and price, minimal maintenance during operation.

The round perimeter planter, which has a large surface area as well as a perimeter wall water overflow threshold, increases seeding capacity by reducing hydraulic speed in the planter and smoothing out hydraulic fluctuations. This feature ensures long-term uninterrupted operation with minimal and easy maintenance.

The design of the diverter tube ensures constant and complete oxygen mixing with the wastewater without additional mixing equipment. This allows the reproduction of various aerobic organisms that biodegrade wastewater contaminants.

The treated wastewater is fed to the unit by self-flow.

Comparison of the technical solution provided with the prototype highlights its novelty. In the analysis of the state of the art in the field of technology, no invention having analogous or equivalent essential features has been identified and therefore this technical solution has an inventive step.

The proposed aerobic wastewater treatment plant is schematically depicted in the drawing.

The unit consists of two chambers in one container 1. The central aeration chamber 2 is a round tapered container with an open bottom which is above the bottom of the planter chamber 3. In the center of the aeration chamber 2 is a deflection tube 4 raised 100 mm from the bottom of the tank 1. A perimeter capacity threshold 5 and a circumferential gutter 6 are provided for pouring rounded wastewater along the outer edge of the planter 3 and a circular gutter 6. Purified water flows out of the pipe 7. To prevent sludge from being discharged with purified water, there is a which feeds treated wastewater. The aeration air is supplied through a conduit 10 which is lowered vertically in the central portion of the unit and ends with a flat disk diffuser 11 for diffusing the supply air. Inspection cover fitted for inspection and periodic sludge removal 12.

The invention is realized in this way.

Sewage is fed into the unit via a pipe installed in the upper part of the unit. At the same time, air is supplied through an air supply tube terminating in a flat disk diffuser for air diffusion. As the exhaust air rises with the guide tube upward, this causes the water flow to move upward and cause the sludge on the bottom of the planter to also rise up to the surface of the aeration chamber. The design of the guide tube ensures a constant and complete mixing of oxygen with the wastewater. It allows the reproduction of various aerobic organisms that biodegrade wastewater contaminants. Due to the action of gravitational forces, the raised particles sit on the bottom of the tank, where they are pushed back to the surface through the guide tube. New wastewater entering the aero tank pushes the sludge from the aeration unit into the planter. The quiet condition of the planter allows the activated sludge to settle on the bottom of the planter, from where it returns to the aeration portion. Rounded effluent moves slowly through the planter, pouring through a perimeter capacity threshold mounted along the entire outer edge of the planter surface. The circulated water flows out of the circular duct with a pipe mounted at the top. The foam containment enclosure, located inside the overflow threshold, prevents the removal of sludge along with purified water.

The use of the proposed design allows reducing the volume of wastewater treatment plants, increasing the relative efficiency of the treatment process and reducing the cost of the treatment process, since the unit consists of a single tank, no additional primary purification or secondary filtration equipment, and energy wastage.

In addition, the proposed Machine does not have any moving parts in its design, which ensures the machine's long-term continuous operation with minimal and simple maintenance.

The device is lightweight and made of durable fiberglass.

Claims (1)

Definition of the Invention 1. An apparatus for aerobic wastewater treatment, comprising a single container having an aeration chamber and a planter, characterized in that in the center of the aeration chamber there is provided a deflection tube with a built-in conduit for air supply.