DE3605398A1 - Method of introducing a gas into a liquid in a sewage treatment plant - Google Patents

Abstract

In a method for introducing gas into a liquid in a sewage treatment plant, in which porous gas-introduction elements arranged in the liquid are supplied with a gas which escapes from the gas-introduction element into the surrounding liquid in the form of individual gas bubbles, in order to prevent blockage and fouling of the gas-introduction elements when the introduction of gas is interrupted, it is proposed that when the gas supply to the gas-introduction elements is interrupted, these elements are completely filled with a clean liquid.

Description

The invention relates to a method for gassing a Liquid in a sewage treatment plant, in which in the liquid arranged, porous gassing elements with a gas be loaded, which in the form of individual gas bubbles from the fumigation element into the surrounding liquid  exit.

When cleaning wastewater in sewage treatment plants this via porous fumigation elements, for example with Air gasses out in the form of small bubbles from the gasses elements and comes into contact with the wastewater occurs.

As long as the fumigation process continues, there is no danger contamination of the porous fumigation elements, since the emerge from the fumigation element over the entire surface gases prevent a deposit of dirt particles other. However, if the gas supply is interrupted, how this during denitrification over periods of days is necessary, there is a risk that the fumigation wastewater surrounding the porous material of the elements Fumigation elements penetrate into the interior. Here who which the pores of the fumigation elements by the in the Contaminated waste water clogged. A total of must therefore these fumigation elements before renewed Inbe drive operation can be cleaned. This is only very partial in some cases difficult to do, and such a cleaning is also possible high energy expenditure.

It is an object of the invention to provide a method of the generic type to improve according to the way that pollution of the gassing elements when the gas supply is interrupted is avoided.

This task is in a procedure of the beginning Written type according to the invention solved in that  when the gas supply to the gassing elements is interrupted filled it completely with a pure liquid, preferably with pure water.

At the end of the fumigation process, the fumigation is carried out elements a pure liquid, preferably pure what filled in. This will prevent the intrusion of the Fumigation elements surrounding polluted wastewater in the fumigation elements are avoided, in particular by this eliminated the danger of contamination from the outside clog the pores of the fumigation elements.

It when the supply of the Gases and the supply of the pure liquid via the same Supply line, from above into the Fumigation element leading pipe piece protrudes. By the projecting into the common supply line Pipe piece must be filled with the fumigation elements pure liquid not the entire supply line be filled with liquid as the pipe sections into the Protrude supply line. Once the liquid the lower end of this into the supply line projecting pipe sections is reached, this is above this Gas cushion levels in the supply line completed and remains in the supply line, that means in this area there is no filling with rivers liquid necessary, although a complete filling the fumigation elements are reached with liquid. There through the filling of the fumigation elements with pure Fluid relieved.

The following description of preferred embodiments Men of the invention is used in connection with the drawing the detailed explanation. Show it:

Fig. 1 is a longitudinal sectional view through a valve disposed on a supply line gassing with a filling of pure liquid and

Fig. 2 is a sectional view taken along line 2-2 with the gas supply switched on.

In the drawing, part of a fumigation system for a wastewater basin of a sewage treatment plant is shown, namely a supply line 1 , which is normally laid at the bottom of such a clarifier, and a tubular, made of porous material consisting of fumigation body 2 , with its longitudinal axis horizontally and transversely or at a different angle to the longitudinal axis of the supply line 1 running is attached to the supply line 1 . The attachment is carried out with the aid of an intermediate piece 3 , which comprises a vertical pipe section 4 . With the pipe section 4 are connected in one piece an upwardly open, the fumigation body 2 receiving muffler 5 and a transverse to the bottom, open, resting on the supply line 1 supporting shell 6th Carrier shell 5 and support shell 6 each lie flat against the fumigation body 2 or the supply line 1 . The gassing body 2 and the support shell 5 are tensioned against one another by tensioning straps 7 placed around both parts, in the same way the support shell 6 and the supply line 1 are tensioned against one another by tensioning straps 8 placed around them. Sealing is carried out by ring seals 9 and 10 , which are inserted in ring grooves 11 and 12 in the inner surface of the support shell 5 and the inner surface of the support shell 6 and surround the pipe section 4 , which in the interior formed by the support shell 5 and in that of the support shell 6 formed interior protrudes.

The pipe section 4 dips with its upper end through an opening 13 at the bottom of the fumigation body 2 in its inner space and is closed at its upper end face 14 ver. The inside of the pipe section 4 is connected to the interior of the fumigation body 2 via openings 15 since.

The lower end 16 of the pipe section 4 projects through an opening 17 at the top of the supply line 1 and ends just above the bottom surface of the supply line 1 .

On each supply line, a larger number of fumigation bodies 2 are arranged in the manner described.

In the gassing operation, all of these gassing bodies 2 are supplied with gas through the supply line 1 , which gas is supplied by a fan, for example, which draws in ambient air. This gas is passed through the pipe sections 4 and the interior of the fumigation body 2 and through the porous wall of the fumigation body 2 into the supply line 1 and the fumigation body 2 surrounding, to be cleaned wastewater 18 , the gas being passed through the porous wall of the Fumigation body 2 is divided into individual gas bubbles, which as independent gas bubbles get into the wastewater and rise to the surface in the sem.

If the gas supply to the fumigation bodies is interrupted, pure liquid, in particular pure water, is pressed into the supply line 1 , which completely displaces the gas present; as a result, the individual fumigation bodies 2 are filled, as shown in FIG. 1. Due to the downward into the supply line 1 projecting ends 16 of the pipe sections 4 results in a filling of the fumigation body 2 above with the pure liquid. The supply line 1 is filled with gas above the lower end 16 of the pipe sections 4 , that is to say the gassing body 2 is completely filled with pure liquid without completely filling the supply line with liquid. The fumigation body 2 then completely filling pure liquid 20 prevents penetration of the polluted wastewater 18 from the outside into the fumigation body and clogging of the pores of the fumigation body during the interruption of the fumigation.

In order to cancel the fumigation again, the pure liquid is removed from the interior of the fumigation body. This can be done either by pumping the liquid or by displacing the liquid with gas through the supply line 1 under pressure. This gas releases the pure liquid through the porous wall of the fumigation body 2 into the environment, at the same time flushing and cleaning the porous wall of the fumigation body 2 .

Claims (3)

1. A method for the gassing of a liquid in a sewage treatment plant, in which the porous gassing elements arranged in the liquid are charged with a gas which emerges in the form of individual gas bubbles from the gassing element into the surrounding liquid, characterized in that when the gas supply is interrupted, the fumigation elements completely filled with a pure liquid. 2. The method according to claim 1, characterized in that that the pure liquid is water. 3. The method according to one of the preceding claims, characterized in that the supply of the gas and the supply of the pure liquid via the same  Supply line into which one from above the fumigation element leading pipe piece protrudes.