DE10044697A1 - Process, useful for treating ground water, comprises injecting pressure controlled oxygen into well water and releasing the supply of gas via a porous matrix in a pressure regulated reactor - Google Patents

Abstract

A drinking water treatment process injects a pressure and volume-regulated dose of oxygen into ground water drawn from a well. The gas is released as a supply of fine bubbles into the water via a porous matrix in a pressure-regulated reactor. The porous matrix is a fine-pored diaphragm which is retained by a membrane collar. A drinking water treatment process comprises the water being treated with fine gas bubbles introduced via a dosing valve (69) and surrendered to a filter reactor (43) for biological treatment. The filter is cleaned at intervals by back-flush. A dosed flow of treated water is continually returned to the wellhead at a given rate, pressure and oxygen content, enhancing the quality of ground water flowing into the wellhead. An Independent claim is also included for a treatment assembly in which a suction pump (60) draws ground water from a well.

Description

The invention relates to a method for continuously, quantity and pressure regulated Entry of gas in a liquid medium, in particular water, via a porous Dosing agent and a device for the continuous entry of the gas into the Liquid.

It is known to enter gases in liquid media and their volume through a Enlarge the division into fine pearls. For this purpose, devices are in the prior art known which is the introduction of the gas and the generation of its pearliness via porous Ensure materials.

DE A 13 02 185 presents a device for impregnating water with a gas before, in which the gas and water are placed in a cooling coil and in a container is arranged. The gas is combined with the water under high pressure. For this purpose, a porous body is used, which protrudes into a water inlet pipe, the the lower end is above the mouth of a discharge pipe. The device guarantees a transition of the gas into the water and at the same time one Regulation of the pressure gradient, but does not allow permanent use and Functionality.

The document DE C2 31 30 597 represents a process for the gassing of liquids, in particular for the biological treatment of waste water, in a bioreactor. The partial flow is above a liquid level in the central area of the Branched from the circulating stream, enriched with gas and so treated partial flow in the peripheral area of the tank bottom the circulating flow fed. In one embodiment, priority is given to the entry of the gas normal ambient air, uses a device that is porous.

DE U1 297 07 300 discloses a device for mixing fluids. Here will a first fluid mixed in a finely divided and homogeneous manner. The one used for this porous body is formed for example from a sintered bronze and one at the head Lancet inserted, which protrudes into the liquid flow. Application is said  Invention in the production of mixed liquid-gas mixtures, gas-gas Mixtures, in the fields of medicine, pharmaceutical medicine and nutrition technology Find.

EP A1 476 732 characterizes a solution according to the invention, according to the Mouth area has a gassing nozzle with a cover, one of the gas through which the chamber flows. The lower end of the chamber is marked by a gas permeable rust formed. Between this and the cover are in the chamber formed in this way numerous solid bodies which, under the action of the rust and gas flowing through the chamber form a fluidized bed.

In EP A2 945 169 a device is placed under protection, which a tube with a vertical essay, in which a lancet-like horizontal Pipe protruding dosing piece is inserted, which in its inclination Direction of flow of the liquid following his front head-shaped End carries a device through which the gas is introduced into the liquid. The Gas flows through channels and is fed through them to an outer ring, which is made of sintered material is formed and the gas has fine pores in the surrounding liquid initiates. In one embodiment of the disclosed solution, the lancet is one Dosing device upstream or the lancet in an oblique direction into the tube introduced. A disadvantage of this device is that the porous material is so is classified that its duration appears very limited. It is not recognizable that the porous material is a gas to be formed over the fine-bubbled additional function has been assigned.

WO 99/29404 shows a possibility of metering gas into liquids that are passed by conduct. The gas is introduced into the liquid under pressure, without the original pressure to vary and is fine-pored in the liquid. The process achieves a homogeneous mixture and dosage and one Filling machine equipped with it can work continuously.

The invention has for its object a method for stepless, quantity and pressure-regulated entry of gas into a liquid medium, in particular water a porous dosing agent and a device for the continuous entry of the gas into the To create media by means of which a transfer of gases into the media with high  Accuracy of preparation and constant pressure while guaranteeing long Operating times.

According to the invention, the object is achieved by a method according to the features of Claim 1 solved. The invention is advantageously designed if with the Penetration of the conditioned gas the required pressure and the necessary fine pearlescence to be entered in the liquid medium. The invention is also advantageously designed if the gas in its transition point in the area of the moving liquid medium is subjected to further pressure regulation. The The method according to the invention is configured by a device for Quantity and pressure regulated entry of gas into liquid media in one of the liquid medium through which the housing is classified. The device is a Assigned dosing agent, which is accommodated in the housing, on one side of it A pressurized gas is applied to the inlet side, through which the gas flows. The output side of the dosing agent is directed to a gas transfer point, which by a sleeve that keeps the liquid medium away from the dosing agent and is positively enclosed.

The invention is advantageously designed when the dosing agent with the Gas transfer point is connected by a lancet-like guide, in which the the dosing agent with a constant pressure fine gas emerging from the into the Liquid medium projecting gas transfer point is assigned to the gas outlet openings wearing. The gas outlet openings are firmly enclosed by the sleeve. The As a result, the cuff closes the gas outlet openings from the outside to prevent access of the liquid medium in which the lancet-like guide is immersed. Through the Shielding the interior of the lancet-like guide ensures that the Dosing point of suspended matter of the liquid medium remains unaffected and their Porosity is not lost through the storage of the suspended matter in the liquid medium. How shown, the cuff closes the gas outlet opening with a constant Tension and is firmly attached to the cylindrical outer surfaces, the openings spanning, at. It has the function of a membrane. The constant tension creates a surface pressure of the inner surface of the cuff in a specific size, which flows from the dosing agent to the gas transfer point. The gas has the pressure too  overcome to in the gap between the cuff and the lancet-like guide to get through and come into contact with the liquid medium. at constant pressure of the cuff and constant external pressure Additional fine conditioning of the pressure in the dosing agent and constant pressure set gas, especially an oxygen. The gas passes between the Contact surfaces sliding out, is constant pressure and has a more extensive Get more uniform pearling, as on the transition side of the dosing point. The Invention is shaped in that the dosing means is a diaphragm through which kept the gas at a constant pressure, brought it into a pearly structure, is moved. The device is further developed according to the invention in that the Diaphragm on the side surfaces running parallel to its longitudinal center axis sealed enclosed, is classified in the use of the device.

The solution according to the invention has a large number of the prior art outstanding advantages. On the one hand, the device according to the invention ensures in its design, the generation from the point of view of a constant pressure and quantitatively conditioned, in a uniform, fine-pearled structure present gas. These requirements are the basis for chemical and biological processes, such as the oxidation of water components, such as manganese and media contaminated with iron, especially drinking water, from well systems with high Accuracy can be performed. It is therefore the expert reading along not be a stranger if he without the concept of the solution according to the invention leave, the dosing device a gas bead counting device to the amount determine the oxygen flowing into the device and the ones to be released Being able to precisely control reactions as part of the process steps. It offers itself advantageously adapts and fits into the inventive concept of the solution when furnishing in the sense of the procedure for water supply systems, their pumped water Contains admixtures by incorporating the method and Facilities uncomplicated above and below ground, i.e. in filter reactors and in the respective layers of soil surrounding the well by backflow of the previously extracted water is used. The pressure constancy advantageously achieved, along with the fine pearliness of the gas, primarily oxygen, is suitable treated in pipelines of liquid media, such as drinking and industrial water  Sewage and similar media to get to the entry, and the beginning of a To ensure oxidation process, consciously control its processes and the To promote the living conditions of microorganisms that are essential for a biological Preparation of the liquid media are necessary. Not just the pearliness and the Constant pressure of the gas processed according to the process guarantees the advantageous Design of the invention, but equally the high degree of gas concentration, advantageously an oxygen, which in such conditions into the liquid registered, initiated with almost a 100% concentration and by these can be fully absorbed.

The invention will be explained in more detail using an exemplary embodiment. In the associated drawing show:

Fig. 1: The device, in a housing, immersed in flowing service water;

Fig. 2: The arrangement of the device in a pipeline with an upstream bubble counter and a gas source.

Fig. 1 shows the metering device 1 in a front view in section. The metering device 1 is here reversely T-shaped, wherein the horizontal strand 14 of the device 1 in the direction of an arrow 13 is flowed through by a liquid medium, for example a process water. A vertically directed on the longitudinal center axis of the horizontal strand 11 , a dome 14 is placed, which carries at its upper end a cap 15 , in which an oxygen inlet 12 is incorporated. An insert 3 is introduced into the dome 14 , which carries a central bore, which is tapered with an intermediate piece, to which a lancet-like guide 2 adjoins, which carries a continuous inner bore. At the outer end of the lancet-like guide 2 , an outlet opening 7 is incorporated. The outlet opening 7 can be formed from one or more, uniformly or non-uniformly, radially directed bores. The continuous inner bore of the lancet-like guide 2 is provided with a stopper 9 or a similar closure option. In the area of the outlet opening 7 , the lancet-like guide 2 is enclosed with a sleeve 8 , which is applied to the outlet openings 7 and parts of the outer surfaces of the lancet-like guide 2 , the outlet openings 7 of which closing, firmly but non-positively. A dosing agent is inserted above the lancet-like guide 2 in the insert 3 , facing the oxygen inlet 12 . The dosing agent is a diaphragm 6 with an extremely fine-pored structure. The diaphragm 6 is firmly inserted in the insert 3 by means of a guide rubber 5 covering its outer surfaces running parallel to the longitudinal center axis and rests with its lower transition side on a shoulder which is designed as a screw-in of an intermediate piece 10 . The inlet side of the diaphragm 6 is directed against the inlet 12 of the oxygen, which rests on the diaphragm 6 via a line with high transport pressure and penetrates it in the direction of the lancet-like guide 2 . The gas, here oxygen, is divided into fine bubbles and adjusted to a constant pressure. The now conditioned gas flows from the transition side 17 of the diaphragm 6 through the inner bore of the lancet-like guide 2 to the transfer point 18 and presses into the outlet openings 7 . The tight-fitting cuff 8 is axially pressurized in the area of the outlet openings 7 and the extremely fine-bubbled oxygen overcomes the frictional connection between the cuff 8 and the outer wall of the guide and leaves it through the resulting less than hair-thin gap. Since the contact pressure of the sleeve 8 and its contact surface remain constant, the specific pressure which leads to the diffusion of the oxygen through the gap is relativized again, adjusted uniformly and kept constant. The lancet-like guide 2 is closed on its lower end face with a closure piece, in the manner of a stopper 9 . The lancet immersed in the water is thus closed to prevent the water flowing in to be mixed with gas, and the suspended matter contained therein cannot get into the area of the diaphragm 6 and clog its pores. This measure ensures long-term functionality of the device.

Fig. 2 shows the possibility of an oxygen bubble counter 21 in line 20 ; 22 between the oxygen source 19 and the metering device 1 in order to consciously meter the amount of oxygen to the metering device 1 , which is in line 23 ; 24 is arranged. The expert reading along recognizes that line 23 in the direction of arrow 13 feeds the liquid medium into metering device 1 , which it leaves again with line 24 . The classification of the bubble counter 21 in front of the metering device 1 in the lines 20 ; 22 ensures an already reliable regulation of the amount of gas supplied, which is conditioned in the metering device 1 .

List of the reference symbols used

1

metering

2

lancet-like guidance

3

commitment

5

rubber guide

6

diaphragm

7

outlet

8th

cuff

9

Plug

10

connecting piece

11

strand

12

oxygen inlet

13

Flow direction

14

cathedral

15

cap

16

input side

17

Interimsite

18

Gateway office

19

oxygen source

20

management

21

bubbler

22

;

23

;

24

management

Claims (8)

1. Procedure for the stepless, quantity and pressure regulated entry of gas into a liquid medium, especially water, using a in a holder arranged porous dosing agent, which has a gas with a high Pressure is fed into the dosing agent as it flows through reduced pressure, regulated and fine-bubble structured, dosed in its quantity leaving its opposite transition side, a transition point fed, in which the gas regulates pressure again, into the flowing liquid Medium is brought to flow and which has a closure with which the Dosing agent is prevented from wetting the liquid medium. 2. The method according to claim 1, characterized in that the dosing agent fine pore diaphragm is in which the gas to produce a constant Pressure to form a fine-bubble structure is moved. 3. The method according to claim 1, characterized in that the gas at the Transfer point into the liquid medium for further pressure regulation Must overcome frictional engagement of a sleeve designed as a membrane. 4. Device for the stepless, quantity and pressure regulated introduction of gas into liquid media with a housing through which the medium flows and which has a fine-pored diaphragm ( 6 ) which acts on one side on its inlet side ( 16 ) with a gas which is kept under pressure, flows through and is connected via its transition side ( 17 ) to a transfer point ( 18 ) which is firmly enclosed by a sleeve ( 8 ) which keeps the liquid medium away from the diaphragm ( 6 ). 5. The device according to claim 4, characterized in that the diaphragm ( 6 ) on its transition side ( 17 ) with a lancet-like guide ( 2 ) is connected, on which the gas exiting from the diaphragm ( 6 ) with a constant pressure at a constant pressure the liquid medium projecting transfer point ( 18 ) is supplied, in which gas outlet openings ( 7 ) are provided, which are tightly attached by the sleeve ( 8 ), to prevent the interior of the lancet-like guide ( 2 ) from getting into liquid, its being enclosed with the lancet-like guide ( 2 ) brought into contact with the inside and the gas between the lancet-like guide ( 2 ) and the inside of the sleeve ( 8 ) is made to escape. 6. Device according to claim 4 and 5, characterized in that the diaphragm ( 6 ) is sealed on its outer surfaces running parallel to its longitudinal center axes, inserted in the insert ( 3 ). 7. Device according to claim 4 and 5, characterized in that the lancet-like guide ( 2 ) in the region of its transfer point ( 18 ) carries at least one outlet opening ( 7 ) which is covered by the sleeve ( 8 ). 8. Device according to claims 4 to 7, characterized in that the sleeve ( 8 ) is a membrane and is movable by the pressure in the lancet-like guide ( 2 ) for the oxygen to slide through in the area of the contact surfaces next to the outlet openings ( 7 ) ,