DE202007001587U1 - Device for introducing gases into liquids - Google Patents

Abstract

contraption for introducing gas into a liquid, which a gas supply with a gas permeable and for the liquid impermeable membrane wherein the membrane is in contact with the liquid.

Description

The The present invention relates to a device for introducing Gas in a liquid.

The Cleaning and treatment or remediation of contaminated groundwater Depending on the type and concentration of the ingredients on different Process or combination of processes, in which physical, a distinction is made between chemical or biological processes.

biological Processes are based on the property of microorganisms, organic and partly also inorganic water ingredients in the nutrient cycle involving, under ideal conditions, water, carbon dioxide and biomass arise. Under suitable conditions are aromatic, organic, organochlorine and inorganic compounds degradable, if sufficient bioavailability guaranteed is. Also, the state of aggregation of the degraded or to be removed Substances is decisive, since e.g. multiphase or disperse systems can occur. Of others determine the natural Water ingredients and the desired degree of purification that too dialing Method. In water treatment, one generally differentiates between in situ and on-site procedures. While in the on-site procedure the Water is removed and treated in a cleaning system is cleaned it in situ on site.

at Groundwater remediation is the use of pollutant-depleting biology, i.e. Microorganisms, a common method for in situ groundwater remediation perform. However, this method assumes that there is enough oxygen for the living microorganisms is present. Frequently, the oxygen concentration is insufficient out. The solubility of oxygen in water varies depending on temperature between 15 ppm (0 ° C) and about 7 ppm at 35 ° C under atmospheric pressure. Consequently Especially in the summer months the problem arises that not sufficient oxygen is present in the water to reduce pollutants to cause the microorganisms.

The enrichment of water with oxygen is just not possible in the case of groundwater in a conventional way or only with difficulty. In known methods, oxygen is introduced under pressure into the water, so that an undesirable stripping effect is caused by the bubbling gas, leading to the formation of an oxygen-pollutant mixture above the water level, which can be explosive depending on the type of pollutants contained. The formation of such a mixture can occur in the groundwater remediation in a well, but also in on-site processes, ie in basins of classical settling oaks. Another disadvantage is that significantly more oxygen is consumed than can actually be absorbed by the water. When bubbling the gas through the water, only a fraction of it goes into solution, most of it is released into the atmosphere without having a positive effect on groundwater or groundwater quality. Another disadvantage of this method is that the supply of compressed gas via relatively large reservoir, or if smaller compressed gas containers are used, they must be frequently checked and possibly replaced. If blowers are used which blow in ambient air or O ₂ as compressed gas, large amounts of gas pass unused through the liquid, resulting in high consumption.

Also In the food industry and in chemical synthesis, gases must be used entered in liquids become. Again, it is desirable that the gases are uniform and Enter at a speed that as little as possible gas released becomes.

Of the The present invention was therefore based on the object, a method to disposal in which groundwater remediation can be optimized, i.e. Groundwater should be as high as possible Have oxygen concentration, i. a concentration that as possible close to the saturation limit is located without requiring large amounts of oxygen be released unused to the environment. The oxygen used should as completely as possible Microorganisms available be put.

The Task was by a device for introducing gas into a liquid solved, which has a gas supply with a gas permeable and for the liquid impermeable Membrane.

in the Use of the device according to the invention is the membrane with the liquid in contact, so that the supplied Gas passes through the membrane and from the liquid is recorded. examples for Gases in liquids are introduced, are gaseous Alkanes, such as methane, ethane, propane, butane, air (compressed air), oxygen, Ozone etc.

The introduction of gases in liquids is carried out in many areas, with the treatment and purification of water, such as wastewater, groundwater and drinking water is particularly important. But also in the production of food, especially of beverages, eg juices, wine etc., and in the chemical synthesis is the entry of gases, especially the regulated one the importance of the gases.

The device according to the invention is particularly suitable for introducing oxygen into groundwater, ie in groundwater remediation, oxygen can be introduced into the groundwater via a membrane. The introduced oxygen is released directly from the groundwater, which reduces the pressure. This pressure reduction on the side of the groundwater causes further oxygen to pass through the membrane, is virtually "pulled" across the membrane in the direction of groundwater, the diffusion through the membrane from the partial pressure of the oxygen, P _O2rein / P _{O 2 dissolved} determined, and the driving force is the balancing of the partial pressures, since the partial pressure of the pure O _{2 is} usually greater than the partial pressure of the dissolved O ₂ .

In the device according to the invention It is not absolutely necessary for the gas to be delivered via a compressed gas cylinder supplied becomes. However, the gas supply under pressure has the advantage that at a pressure slightly above atmospheric pressure, the oxygen supply is ensured. The gas supply without overpressure involves the danger that is between the gas supply and the gas intake in the liquid Sets a state in which no more gas through the membrane passes.

Becomes in the device according to the invention the Gas supply by means of gas overpressure for example about a compressed gas cylinder, operated, the control of the gas pressure takes place preferably over one or more valves.

The used according to the invention Membrane is for the gas permeable and for the liquid impermeable. Preferably, the inventive device for groundwater remediation used. The membrane used is usually a polymer membrane, in particular of inorganic or organic polymers, wherein organic polymers are particularly suitable, especially those on the basis of silicone. Particularly suitable are glass fiber reinforced membranes, because these are thin Have membranes with a particularly good stability. Preferably, the wall thickness of Membrane less than 1 mm, the inner diameter is preferably less than 10 mm.

In cases in which the gas in larger quantities of liquid it has proved to be particularly advantageous if the membrane is a big one surface But also has a compact design, so that they are small in size Wells, pipes etc. can be installed. A possible construction is a hose closed at the bottom. In a possible Embodiment is the membrane is folded and / or has several strands, whereby on one relatively small area a big membrane surface made available can be.

The Gas supply is, as already mentioned, preferably via valves controlled. The pressure is particularly preferably set such that within the pressure reduction in the fluid that flows through the dissolution rate of the gas in the liquid and the gas supply to the liquid is in equilibrium established.

The device according to the invention is shown in the attached 1 shown.

In this 1 becomes the introduction of oxygen into a remediation well 1 ie in which water the liquid is represented. The gas, oxygen, is in the embodiment shown here in a compressed gas cylinder 2 provided and over the line 4 in the renovation fountain 1 directed. The oxygen supply is via the valves 4 . 5 and 6 controlled. The valves also have a safety function at the same time. Should the membrane be leaking and the water from the remediation well 1 over the supply line 3 go back to the oxygen supply, this is done via the valves 4 . 5 and 6 a barrier between the liquid and the oxygen reservoir.

oxygen can be used as pure gas or mixed with other gases, for example as compressed air supplied become.

The membrane according to the invention 7 is located at the end of the oxygen supply. The membrane is in contact with the liquid, ie the groundwater. The gas is supplied via the supply line 3 towards the membrane 7 , Through the membrane pores, which are permeable to the gas for the liquid, namely the water impermeable, the gas enters the water. The gas supply takes place at such a pressure or at such a speed that no more (oxygen) enters the water than is dissolved by the water and consumed by the microorganisms. In this case, it ensures that only small amounts of oxygen without being useful in groundwater remediation, passes through the water and is released to the environment. As a rule, no blistering is observed, ie the supplied oxygen is almost completely dissolved in the water. This setting has the further advantage that even the unwanted stripping effect, which can lead to a pollutant accumulation above the water surface, is avoided.

In the embodiment illustrated here, a plurality of liquid reservoirs, ie remediation wells, are operated in parallel. The gas is going out the compressed gas cylinder 2 via the gas supply 3 in a gas distribution 9 and from there via further pipelines 3a . 3b . 3c , about the individual membranes 8th directed to the respective refurbishment wells.

1

liquid reservoir

2

Gas reservoir / compressed gas cylinder

3

gas supply

4, 5, 6

valves

7

membrane

8th

membrane pore

9

gas distribution

Claims (8)

Device for introducing gas into a liquid, which a gas supply with a gas permeable and for the liquid impermeable Membrane, wherein the membrane is in contact with the liquid. Device according to claim 1, characterized in that that the gas supply is connected to a compressed gas cylinder. Device according to Claim 1 or 2, characterized that the control of the gas pressure via one or more valves he follows. Device according to one of claims 1 to 3, characterized that the membrane is a macroporous Membrane is. Device according to one of claims 1 to 4, characterized that the membrane organic polymers, especially polymers on the base of silicone. Device according to one of claims 1 to 5, characterized that the membrane is folded. Device according to one of claims 1 to 6, characterized that the pressure within the gas supply or the membrane in such a way is set that the speed with which the gas through The membrane passes the speed corresponds, with which that entered the liquid Gas is absorbed by this. Device according to one of claims 1 to 7, characterized in that the gas is selected from gaseous alkanes, such as methane, ethane, propane, butane, air (compressed air), oxygen, ozone, CO ₂ , etc.