CS271940B1 - Method of waste waters cleaning by means of activation process and equipment for realization of this method - Google Patents

Abstract

The solution concerns the purification of sewage water by the activation process and the device for the application of this method, where the activity of the mixed culture of the activated sludge in the activation tank is used and it consists of the zone of the regenerator and contactor, which is subdivided into the oxic and anoxic part. The return sludge is brought from the final sedimentation tank to the anoxic part of the contactor zone through the regenerator zone. Before the entry into the contactor zone, the part exceeding the capacity of the activated sludge, which is located in the contactor zone, is separated from the purified sewage water. This part is brought into the regenerator zone, from where the equivalent amount of the activated sludge, accumulated in the regenerator zone, is brought into the anoxic part of the contactor zone. The solution falls within the area of water management and environmental protection.<IMAGE>

Description

FIELD OF THE INVENTION The present invention relates to a method and apparatus for carrying out a process for purifying waste water by an activation process in an effector tank which is divided into a regenerator zone β by artificial oxygen supply and a contactor zone which can be further subdivided into anoxic supply of oxygen by aeration equipment and β recirculation of sludge separated in the settling tank to the contactor zone, via the regenerator zone,

Waste water treatment plants are exposed to fluctuations in the amount and contamination of the wastewater treatment plant throughout the day. Due to fluctuations in the reading room load during the day, there may be a collision in the efficiency of the treatment plant. Therefore, most of the reading room is equipped with a system of measurement and regulation, which, depending on the load of the treatment plant, performs such an operation that the activation process takes place under steady conditions, if possible. There are basically two systems of regulation - maintaining a constant sludge load and maintaining an optimal sludge etiary.

The disadvantage of both systems is their complexity. These are a number of sensors, the values of which are evaluated by the control unit and give commands to the active elements. It has been proven from long-term monitoring of urban wastewater treatment plants that in most cases there is an increase in the fabric load.

The above-mentioned disadvantages are eliminated by the wastewater treatment process according to the invention using the activated sludge mixed culture activity in the activation tank, disaggregated from the regenerator zone of the contactor, the components of the eyetam being a distribution control object. by its entry into the activation tank it separates such a part that would exceed the capacity of the activated sludge in the contactor zone. This separate sump is fed to the regenerator zone, thereby allowing, at the time of increased load of the activation tank to the waste water, to be fed to the anoxic portion of the contactor zone in addition to the amount of activated sludge accumulated in the regenerator zone.

The method according to the invention can be carried out, for example, by a device consisting of an activation tank divided into a regenerator and a contactor which is further subdivided into an anoxic part and an oxic part, not having a discharge tank connected to a settling tank. , according to the invention, the subject matter of which is that a distribution control object is connected upstream of the enoxlocating part of the contactor, which is connected to the regenerator via a drain line.

The advantage of the wastewater treatment process by the activation process according to the invention lies in the fact that in the irrigation of the incoming amount of wastewater to the sewage plant. it is more resistant to hydraulic and fabric impacts than conventional systems of the activation process. The advantage is that it is a passive control element without the need for operation, maintenance and electricity. Maintaining a constant load is particularly important in systems with anoxic zone where, in order to achieve a constant denitrification performance, it is necessary to maintain as uniform a load of activated sludge as possible.

The subject matter of the invention is further elucidated in the drawing showing the process arrangement for the contactor and the anoxic zone.

The waste water 1 is after mechanical pretreatment supplied to the distribution control object 2, from which it flows through the stream 3 to the anoxic part 5 of the contactor and then proceeds to its oxic part 6. The activation mixture from the contactor 6 flows into the settling tank 9 cleaning. The separated sludge is fed from the settling tank 9 through a stream 10 to the regenerator 7. From the regenerator 7, the return sludge is returned to the contactor, respectively. The treated wastewater separated by the distribution control object 2 is fed by a flow 3 to the second half of the regenerator 7. The system is stripped off by means of a branch 12,

CS 271940 Bl

Example

At the wastewater treatment plant, a quarter-operation model in the arrangement according to the present invention was operated and with real wastewater. The various parts of the activation system were: regenerator «24 1. ' anoxic part of the contactor »11 1, oxic part of the contactor« 36l.

The system was arranged so that up to 33% of the waste water supplied could be branched into the regenerator. When feeding veěksré wastewater to the anoxic portion contactor has reached "3 equilibrium concentration of the activated sludge value of 3.5 kg.m, ^Inc P were achieved by 62% nitrification efficiency of denitrification. Activated sludge decreased by 1.5 times to 2 to 2.5 kg.m ³ and nitrification efficiency dropped by 20%. When modeling the same hydraulic shock 8 by 33% z, branching off into the regenerator, the activated sludge concentration in nnoxic dropped even the oxic part of the contactor below 3.3 kg.m ³ , · while the efficiency of both nitrification and denitrification decreased only by 3 to 5%,

Claims (2)

A process for treating wastewater by an activation process utilizing an activated sludge culture activity in an activation tank, comprising a regenerator zone with an artificial oxygen supply and a contactor zone divided into anoxic and oxic part with recirculation of the separated activated sludge to the contactor zone through the regenerator zone; characterized in that ee separates a part of the wastewater exceeding the activated sludge capacity in the contactor zone from the articulated waste water before entering the activation tank, which part is fed to the regenerator zone from which an additional amount of activated sludge in the zone accumulator regenerator, 2. Establishment for waste water treatment by activation process, consisting of! from an activation tank divided into a regenerator and a condenser, further subdivided with an anoxic portion of oxic acid, to whose outlet piping a secondary settling tank is connected, and from the return sludge pipeline from the sludge supply to the contactor, characterized in that The distribution control object (2) is connected and connected to the regenerator (7) via an outlet pipe (4).