DE2042545A1 - Submerged aeration - for biological purification of liquids or slurries - Google Patents

Abstract

Submerged aeration of liquids and slurries for bringing about biological-biochemical decompsn. of the solids content, by inserting a desired series of air nozzles in a tank or moving bed only one or small group of these being periodically supplied with air via controlled conical valve seats, either in succession or in simultaneous pulsed processes, the characteristic feature of which is that the repeated interruption of the air feed is also producted by control of the valve spindles.

Description

Process for submerged aeration of liquids and thick matter to achieve a biological-biochemical degradation of the ingredients to promote the biological-biochemical degradation of the constituents in wastewater and also of nutrient media For the cultivation of micro-organisms, oxygen is nowadays brought in as is known into the liquids and thick matter.

This biological process known to date, e.g. B. for clarification of feces, is associated with failure-prone facilities. The liquids and thick matter must be kept in motion once, which is not only due to the expenditure of energy, but above all also lit susceptibility to failure. According to the known Procedure one ensures a good circulation of fluids and nutrients in order Add air or oxygen evenly everywhere.

The problem with such devices is not only the carefulness Circulation, but also keeping the air open. If the circulation is inadequate If the air nozzles are blocked, the bacteria die and the device has does not serve its purpose.

The problem with today's biological system is that These are continuously monitored due to the careful mixing of Air and liquid biw. Thick matter takes place.

According to today's method, air is blown into the liquid, of which only a part remains in the liquid or in the thick matter, during the most of it escapes as air bubbles. Because you need large nozzles and create a lot of air There are also large air bubbles in the liquid, which have a high level of buoyancy and therefore only a very small percentage of the liquid or the thick matter can submit.

The present invention provides a method of submerged ventilation of liquids and thick matter to achieve a biological-biochemical degradation the ingredients that completely eliminate the previous deficiencies in such systems.

The liquids and thick matter no longer need to be circulated do not even need a flow rate, and the addition of air can occur in the finest air bubbles, with clogging and failure being practical is not possible, and if so, this failure is only localized in a small area and any failure is immediately recognizable from the outside.

A particular advantage of this new invention is that you can gets by with very little air and that most of the air is actually in the liquid or remains very finely distributed in the thick matter.

The method is based on the fact that in the biologically to be treated Liquid in a certain distribution protrude air pipes, which act on alternately These air pipes are controlled with a relatively high air pressure and know how to get the smallest possible air nozzles in the liquid. Am clogging the nozzles are pretty closed because every single air tube comes with it can supply air pressure to any hook. Located above the air tube a control device that shows the decrease in air pressure in the air tube, so so that it can be seen from the outside whether an air pipe is exposed to air or not.

From an air point or from a compressor it is now how In other words, each air pipe is controlled individually or in smaller groups. Since the If air is injected in the smallest possible bubbles, a finely distributed one is obtained Air mixture that is preserved for a long time, so that the air pipe only in certain Needs to be charged with air at intervals.

So you practically only need a single small compressor and receives a zillion air effect, because air hardly needs to be lost because it is because of the fine distribution, as I said, in the liquid or in the thick matter held so there, so that the biological basis is given.

An embodiment is illustrated in the accompanying drawing.

In the container or e.g. B. in a fluidized bed 1 are air nozzles 2, 3 and 4 attached, lead to the air pipes 2a, 3a and 4a in a known manner. The air to be supplied enters the valve housing 5 at A, for example. the Valve rods 2b, 3b and 4b are operated alternately, so that practically always only the valve cone 2c, 3c and 4c allows air to enter the nozzles 2, 3 and 4. So you have practically a uniform air inlet at A, the actual air inlet Consumption, and does not bring the total energy occurring at A to different ones Nozzles distributed in the pit but concentrated practically all of the energy on an air nozzle, so either everything on two, all on three or all on four. The intervals can be chosen so short, for example 1 to 3 seconds, that the air that has entered penetrates the liquid or thick matter intensively and in the finest distribution rises so slowly that, despite the intervals, none of them Place an air supply interruption.

The total requirement, or at least a large part of the air requirement only to be added to one nozzle and you can set the air pressure practically as desired keep it high without additional consumption occurring and is in turn high due to this Clogging of the individual nozzle is practically impossible.

The air pipes 2a, 3a and 4a have preferably pressure switches 6, 7 and 8, by which a control device is controlled, which indicates whether at intervals the air nozzles 2, 3 and 4 actually deliver the desired amount of air into the liquid or put into the thick matter. Should a nozzle fail, it will displayed in a known manner via the pressure switches 6, 7 and 8.

So you have a method for submerged aeration of both sewage to promote the biological / biochemical degradation of the ingredients as well of nutrient media for the cultivation of micro-organisms for the purpose of obtaining these micro-organisms and / or their metabolic products, with immediate verification of the mode of action and with the lowest possible maintenance costs.

Another advantage of this system is that the function of this System can be registered, namely by the respective reduced pressure in the Air pipes z. B. is easy to record on a chart strip.

Claims (3)

PATENT CLAIMS Process for submerged aeration of liquids and thick matter to achieve a biological-biochemical degradation of the ingredients, characterized in that that a container or a fluidized bed with any number of air nozzles (2,3,4) equipped is practically each individually or in small groups via controlled valve cones (2c, 3c, 4c) receive air supply periodically and either one after the other or also in the joint process simultaneously, whereby the feature of the invention is the respective interruption, So the control of the valve spindles (2b, 3b, 4b) is. 2.) Process for submerged aeration of liquids and thick matter to achieve a biological-biochemical degradation of the ingredients, characterized in that that the air pipes (2a, 3a, 4a) are provided with pressure switches (6,7,8) which over a known electrical registration indicates that each individual air nozzle (2,3,4) has worked properly. 3.) Process for submerged aeration of liquids and thick matter to achieve a biological-biochemical degradation of the ingredients, characterized in that that the pressure reduction in the air tubes (2a, 3a, 4a) is recorded on a graph strip will. L e r s e i t e