DE3716805A1 - Gas-introduction body - Google Patents

Abstract

A gas-introduction body for introducing a gas into a liquid, such as a waste water to be treated, is provided with a pipe made of an open-pored material which is supplied with gas via its central cavity and is surrounded externally by an elastically perforated tube by which the gas is given off towards the outside, finely distributed.

Description

The invention relates to a fumigation body the features of the preamble of claim 1.

They are fumigation bodies in the form of pipes an open-pore ceramic material known. The to treat a liquid, such as waste water, Fumigation bodies are inserted over the inside of the pipe fed with a gas such as air or oxygen. The air penetrates the pores of the tube walls and enters the surrounding wall in fine bubbles over the outer wall Liquid. A disadvantage of such open-pore Pipes is that they only work continuously and not be used in intermittent operation can. The reason for this is that after switching off the air supply into the interior of the fumigation body the pores at the outer wall ends in the shortest Contain time in the liquid to be treated  ne particles (sludge) are blocked so that trouble-free operation after re-entering switching the air supply is no longer guaranteed is.

There are also fumigation bodies in the generic term of claim 1 described type known (DE-PS 33 19 161), in which a pipe made of a gas-impermeable casual material from a perforated, flexible Hose is surrounded. The space between the pipe and the hose is attached to holes the ends and / or in the middle of the gas impermeable gene pipe with a supplied via the pipe interior Gas filled so that the tube inflates and the gas to the outside through its perforations into the liquid to be treated. Such a fumigation body can also be intermit insert it. But he satisfies in the company insofar as when the gas supply is switched off Liquid through the perforations in the membrane and the space over the holes in the enter the gas-tight pipe into the pipe interior can, which would also disrupt the operation.

The invention has for its object a Fumigation body in the preamble of the claim 1 described to create the one hand enables intermittent operation and on the other hand, the penetration of liquid in such an operation into the interior of the fumigation body avoids.

The features of Claim 1.

Surprisingly, the task posed  through the combined application of one known per se ten open-pored tube and one surrounding this tube reached the perforated membrane. The open pore Pipe creates when the gas supply is switched off a sudden drop in pressure in the space over the entire outer wall, so that the hose suddenly with contraction to the outer wall of the pipe and no liquid through the Perforation more in the intermediate space or in that Inside the pipe can occur.

Advantageous embodiments of the invention are placed under protection in the subclaims.

The invention is based on a drawing explained in more detail with further details.

The fumigation body shown has a tube 2 made of an open-pore material. This material can be a sintered metal, a quartz sand bonded in plastic, an open-pore plastic, a ceramic material, a porous metal foam or a non-woven fabric.

It is advantageous if the weight of the tube 2 is so large that it is heavier than the buoyancy forces acting on it when it is lowered into a clarifier or the like. In this case, no special weighting or anchoring is required to hold the fumigation body at the bottom of the pool.

On the outside, the tube is surrounded by a hose 3 made of an elastic material, such as rubber. The hose 3 is provided with perforations 4 , which allow gas to pass from the space formed between the outer wall of the tube 2 and the inner wall of the claw 3 . This gap increases when a gas under pressure is introduced into the tube interior 5 . This gas penetrates the pores in the wall of the tube 2 , from there into the intermediate space and then exits via the perforations 4 to the outside into the liquid to be treated. If the gas supply to the interior 5 is stopped, the pressure in the space drops suddenly over the entire outer circumference of the tube 2 , so that the tube 3 with its inner wall contacts the outer wall of the tube 2 with contraction. This prevents liquid from penetrating through the perforations 4 into the intermediate space and thus through the pores of the tube 2 into the interior 5 thereof . Intermittent operation is thus possible, in which the gas supply into the interior of the tube 5 is temporarily switched off as required.

In the case of an implemented construction, it must be ensured that the pipe ends of the pipe 2 are tightly connected to a distributor or a subsequent pipe 2 , so that an undesired gas leakage at these points is avoided. For this purpose, the pores are closed at the pipe ends of the pipe, for example by coating with a synthetic resin adhesive. In the area of this coating, the hose 3 is clamped to the outer wall of the pipe, for example by means of pipe clamps.

Claims (9)

1. Fumigation body for introducing a gas into a liquid, in particular into a wastewater to be treated, with a pipe which is supplied with gas from a gas supply line via its central cavity and is surrounded by an elastic, perforated hose through which the gas is finely distributed is released to the outside, characterized in that the tube ( 2 ) consists of an open-pore material. 2. Fumigation body according to claim 1, characterized in that the tube ( 2 ) consists of sintered metal. 3. fumigation body according to claim 1, characterized in that the tube ( 2 ) consists of plastic-bound quartz sand. 4. fumigation body according to claim 1, characterized in that the tube ( 2 ) consists of open-pore plastic. 5. fumigation body according to claim 1, characterized in that the tube ( 2 ) consists of a ceramic material. 6. fumigation body according to claim 1, characterized ge indicates that the tube consists of a porous metal foam. 7. fumigation body according to claim 1, characterized ge indicates that the tube consists of a Non-woven fabric exists. 8. fumigation body according to one of claims 1 to 7, characterized in that the tube ( 2 ) at its ends, at which the ends of the hose are clamped tightly to the circumference of the tube, has a coating which closes the pores of the tube material. 9. fumigation body according to claim 8, characterized ge indicates that the coating an adhesive, in particular a synthetic resin adhesive, is.