DE3318412A1 - Gassing apparatus - Google Patents

Abstract

A gassing apparatus for introducing a gas into a liquid, in particular into an effluent to be treated, is proposed, wherein the gas fed passes through the perforation of a rubber tubing membrane from the inside outwards and enters in the form of bubbles into the surrounding liquid. In this case, the perforation in the wall of the membrane is formed by transverse slots which are aligned obliquely or at right angles transversely to the longitudinal axis of the membrane.

Description

Gas supply unit

The invention relates to a gassing unit with the features of the preamble of claim 1.

Known fumigation units of this type to be arranged under water have a membrane designed as a rubber hose, mostly on a tubular The base body is arranged, which has through openings and to which the gas is supplied will. The rubber hose membrane has a slotted perforation through which the gas enters the liquid from the inside out. The slot perforation consists of longitudinal slots that are parallel to the wall of the membrane whose longitudinal axis are aligned or arranged. One disadvantage of this formed in the longitudinal direction of the membrane longitudinal slots is that at the expansion and widening of the circumference of the rubber hose membrane due to the gas pressure within the gassing unit, especially with intermittent gassing, the stress at the ends of the longitudinal slots is so great that the longitudinal slots tear further and thus lengthen, so that a not inconsiderable impairment the membrane function occurs. Another disadvantage is that by the running in the longitudinal direction of the membrane Longitudinal slits the bubble @@ gr @@ e of the acting Ga @@ in many cases not satisfactory is because the bl <i6cu are comparatively large and in terms of their delicacy can only be controlled to a small extent, especially with increasing internal pressure the side lips of the longitudinal slots are pushed further apart, so that larger Bubbles emerge. If the longitudinal gaps are torn, an even larger one occurs Bubble formation when gas is introduced into the liquid, so that the one aimed at with fumigation Benefit is greatly diminished.

The object of the invention is to provide a gassing unit with to improve the features of the preamble so that in a simple manner without additional Means a higher stability and longer service life of the hose membrane is achieved and also an extremely fine-bubble, in particular, very fine gassing is possible with increasing internal pressure.

According to the invention, this object is achieved by the identification features of claim 1 solved.

Preferred refinements and developments as well as other advantages and essential details of the invention are the features of the subclaims, the following description and the drawing to be found in a single Figure shows in a schematic representation preferred embodiments as an example.

The gassing unit according to the invention shown in the drawing 1 has a hose made of a rubber-elastic material Membrane 2 on a base body designed as a tube, the can preferably consist of #plastic, is angeoys ~ .rlct. The ~ round body, which is connected to a supply line has through holes through which the fed grass flows through it and reaches the inner surface 3 of the membrane 2 from here the gas wi.rd due to its excess pressure through the wall 4 of the membrane 2 pressed outwards, with it on the outer surface 5 in the form of fine bubbles in the liquid to be treated enters.

For this purpose, the membrane 2 has a slot perforation, which the wall 4 penetrates in the radial direction. The slot perforation is according to the invention designed so that transverse slots 6,6 'are formed which are arranged so that they do not run parallel, but transversely to the longitudinal axis 7 of the membrane 2 or are aligned. These transverse slots 6,6 'can be on the entire circumference of the membrane 2 or only on partial areas of the circumference.

In the present embodiment, the transverse slots are 6,6 'of For the sake of simplicity, only in the long center area 8 and at both end areas 9, 9 'of the tubular membrane 2 shown. In reality there are also between the End areas 9,9 'and the longitudinal central area 8 corresponding transverse slots 6,6' formed.

The transverse slots 6 in the longitudinal center area 8 of the membrane 2 are like this aligned so that it is exactly perpendicular, that is, at an angle of 900 transverse to the Longitudinal axis 7 run on the circumference of membrane 2. Between the in the circumferential direction one behind the other arranged transverse slots 6 is each a slot-free part of the Wall 4 stopped so that unclitzte spaces 10 exist. The length of the transverse slots 6 and the length of the spaces 10 between the transverse slots 6 be chosen so that the length of a transverse slot is approximately equal to the length of a Gap 10 is, but it can also be advantageous, the length of a transverse slot 6 run about ten times larger than the length of a space 10 between two transverse slots 6. The length of the transverse slots 6 is advantageously about three or more be four times greater than the length of the space 10.

Furthermore, it can be advantageous for the length of the transverse slots to be 6,6 ' to be dimensioned so that it is about 1.5 to fifteen times greater than the thickness of the wall 4 of the membrane 2. It can be particularly advantageous to adjust the length of the transverse slots 6,6 'so that it is about three to six times greater than the thickness the wall 4, whereby a high functionality for a very fine-bubble gas outlet taking into account a high wall strength due to the available standing wall thickness is given.

In the longitudinal center area 8 of the membrane 2 it can also be seen that those running on the circumference of the membrane 2 essentially in adjacent rows Transverse slots 6 are arranged such that an offset of the transverse slots 6 such Type is given that, viewed in the longitudinal axis direction, interspaces 10 that are not slotted and transverse slots 6 are arranged alternately, whereby a wall weakening largely avoided and a better distribution of the finest-bubble gas outlet is achieved.

The at the end areas 9,9 'of the membrane 2 formed Cross slots 6 'are not like those in the yes. There are 8 transverse slots 6 exactly at right angles to the longitudinal axis 7, but run at an acute angle obliquely to the longitudinal axis 7. It can be seen that the acute angles of the transverse slots 6 'at the end area 9 opposite to the acute angles of the other end area 9' formed transverse slots 6 'are carried out. For a favorable gas entry in the liquid to be treated, with the most uniform possible distribution of the Fine blowing is possible over the length of the membrane 2, it may be useful to the acute angle of the sctir7igen transverse slots 6 'with respect to the longitudinal axis 7 so choose that from the end regions 9, 9 'in the direction of the longitudinal central region 8 there is an increasing enlargement of the acute angle. That is, at the end areas 9,9 'are the inclined transverse slots 6' arranged so that a relatively smaller There is an acute angle to the longitudinal axis 7, while in the vicinity of the longitudinal central region 8 shows the acute angle arrangement of the inclined transverse slots 6 'with respect to the longitudinal axis 7 is much larger. The inclined design of the transverse slots can be advantageous 6 'at the end regions 9, 9' have an acute angle of only 100 to the longitudinal axis 7. The subsequent inclined transverse slots 6 'have increasingly larger acute angles arranged, wherein in the vicinity of the longitudinal center region 8, the angle between the inclined transverse slots 6 'and the longitudinal axis 7 can be approximately 900.

The width of the transverse slots 6, 6 'can be in an advantageous embodiment be designed so that there is practically no free space between the two parallel side lips 11,11 ', which the respective transverse slot 6.6 limit given is. The two side lips 11, 11 of each transverse slot 6, 6 'are therefore expediently located right next to each other, which means that the gas comes out of the transverse slots in extremely fine bubbles 6.6 'exits. A significant advantage is given by the fact that when there is an expansion der Nernbrane 2! Fl? 'L% increasing peripheral expansion with extremely high internal pressure by the transverse slot arrangement according to the invention, the two side lips 11,11 'one each transverse slot 6,6 'are pressed against each other reinforced, so that always one very fine-bubble introduction of gas into the liquid is guaranteed. Another The main advantage is that when the diaphragm is expanded in its circumference 2 further tearing of the transverse to the longitudinal axis 7 due to increased internal gas pressure Cross slots 6,6 'is largely avoided, so that in contrast to the known Longitudinal slots running parallel to the longitudinal axis, in which a slot widening occurs when the tubular membrane is inflated, a high level of functionality and long service life is selected.

In addition, with the gassing unit according to the invention due to of the transverse slot designs according to the invention, as shown surprisingly in a series of tests have, compared to known fumigation systems of a similar type, an essential higher oxygen utilization can be achieved. That means that more oxygen from the liquid to be treated is absorbed. Also by the invention Cross slit formation achieved a higher oxygen yield, so that a larger Oxygen entry into the liquid is achieved per kilowatt hour expended.

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Claims (11)

Gassing unit, t Satent claims i; e gassing unit for introduction a gas in a liquid, in particular in a wastewater to be treated with one consisting of a rubber elastic material, preferably tubular Membrane whose wall has a perforation through which the discharged gas passes from the inside to the outside and bubbles into the surrounding liquid arrives, characterized in that the perforation in the wall (4) of the membrane (2) of transverse slots arranged essentially transversely to the longitudinal axis (7) thereof (6'6 #) is formed. 2. Gassing unit according to the preceding claim, characterized in that that at least some of the transverse slots (6) in the wall (4) at an angle. of 900 are arranged transversely to the longitudinal axis (7) of the membrane (2). 3. Gassing unit according to one of the preceding claims, characterized characterized in that the at a 900 angle perpendicular to the longitudinal axis (7) of the membrane (2) running transverse slots (6) in the wall (4) at least are arranged in the longitudinal center area (8) of the membrane (2). 4. Beansagregat according to one of the preceding claims, characterized in that that at least some of the transverse strands (6 ') in the wall (4) point in one Acting obliquely to the longitudinal axis (7) of the membrane (2) are arranged. 5. Gassing unit according to one of the preceding claims, characterized characterized in that the oblique to the longitudinal axis (7) of the membrane at an acute angle (2) arranged transverse slots (6 ') in the wall (4) at least at one end area (9.9 ') of the membrane (2) are formed. 6. Gassing unit according to one of the preceding claims, characterized characterized in that the oblique to the longitudinal axis (7) of the membrane at an acute angle (2) arranged transverse slots (6 ') in the wall (4) starting from a small one Acute angle of about 10o at the end area (9.9 ') of the membrane (2) in the direction of the longitudinal center area (8) of the membrane (2) at an increasingly larger acute angle up to approximately 900 are arranged to the longitudinal axis (7). 7. Gassing unit according to one of the preceding claims, characterized characterized in that the in the longitudinal axis direction are substantially adjacent Transverse slots (6, 6 ') are formed offset from one another in the wall (4) of the membrane (2) are that unslotted spaces (10) and transverse slots (6,6 ') arranged alternately are. 8. Eegasungsaggregat according to one of the preceding claims, through this characterized in that the length of the gliding slots (6,6 ') is about one and a half to fifteen5 preferably three to six times greater than the thickness of the wall (4) of the membrane (2) is. 9. Gassing unit according to one of the preceding claims, characterized characterized in that the length of the transverse slots (6,6 ') one to ten times, preferably is two to five times greater than the length of the slot-free interspaces (10). 10. Gassing unit according to one of the preceding claims, characterized gekennzetchnet that the width of the transverse slots (6,6 ') is essentially zero and the two side lips (11, 11 ') of the wall delimiting the transverse slot (6,6') (4) lie against each other. 11. Gassing unit according to one of the preceding claims, characterized characterized in that with increasing circumference expansion of the membrane by expansion (2) the pressing force of the two side lips (11, 11 ') delimiting the transverse slot (6,6') increases against each other.