DE19950457A1 - Device and method for introducing oxygen into water with a membrane - Google Patents

Abstract

The invention relates to a device for introduction of oxygen into water associated with a device for the separation of oxygen from the air. Said device for separation of oxygen from the air comprises at least one oxygen permeable membrane for the creation of oxygen in molecular form. Said oxygen permeable membrane is so arranged in or on the introduction device that one side of the membrane comes into direct contact with the water.

Description

The invention relates to a device and a method for the entry of Oxygen in water.

Many methods are known for introducing oxygen into water, in which not air, but pure oxygen is added to the water. With these The process uses oxygen from a source, e.g. B. storage tank, or directly from a Device for generating oxygen from the air of a separate Entry device fed. By separating the generation of the The system consists of oxygen from the air and its entry into the water at least from the two devices mentioned. This is the whole System technically relatively complex and therefore expensive. You can also use this System does not always ensure a sufficiently small size of the oxygen bubbles to adjust.

Furthermore, membranes are known for the separation of oxygen from the air due to different permeation rates of the Gas components of the air through this membrane, i.e. H. essentially oxygen and nitrogen, which separate gas components.

A known membrane consists of polycarbonate and has, for example, monolayer capillaries with an inner diameter of 100 μm and an outer diameter of 150 μm. At a pressure difference of one (1) torr, the oxygen flow in this membrane is approx. 13 cm ³ /s.cm ² . Such a membrane is available, for example, as a membrane type KST G 2000 from Generon in the Handei. The gas separation takes place in that oxygen has a higher permeation rate, so that a much larger amount of oxygen diffuses through the membrane wall in comparison to nitrogen.

The invention has for its object the disadvantages of the aforementioned To overcome the prior art and an apparatus and a method create, in which the device and the method is technically simplified and also a sufficiently small size of the oxygen bubbles is achievable.

The object underlying the invention is achieved by a device for Entry of oxygen dissolved in water, which is characterized in that the Device is assigned a device for separating oxygen from air, which device for separating oxygen from air at least one has oxygen permeable membrane for generating oxygen in molecular form, and that the oxygen-permeable membrane in or on the Entry device is arranged so that one side of the membrane with the Water comes into direct contact.

The idea of the invention is that with the help of a membrane, the oxygen is produced in a molecular form and then the generated Oxygen molecules up to the interface between the water and the Surface of the membrane are transported and dissolve there. That means that no oxygen gas bubbles are generated here, but the Rather, oxygen goes directly into solution in molecular form.

The functions according to the invention are thus advantageous Oxygen generation and oxygen input realized in only one apparatus, whereby  due to the molecular form of the oxygen a very good solubility in the Water is given.

According to the invention, an oxygen-permeable membrane is made from a Polymer film used. Membranes have proven to be particularly suitable an ethyl cellulose derivative or ultra-thin membranes Perfluorobutyroläthycellulose, but preferably membranes made of polycarbonate, for example, the membrane from Generon type -KST G 2000. With help the polycarbonate membrane, the oxygen generation is very efficient.

The membrane is in flat form or preferably in the form of hollow fibers used.

The object underlying the invention is further achieved by a method dissolved for the entry of oxygen in water, which is characterized is that the oxygen in molecular form using a method for Separation of oxygen from air with an oxygen-permeable membrane is generated and that one side of the oxygen-permeable membrane directly with comes into contact with the water.

With the help of the method according to the invention there is the advantage that the Process steps of oxygen generation and oxygen input in just one Process stage can be realized and that a very good solubility in water is caused by the molecular form of oxygen.

According to the invention, a membrane is made as an oxygen-permeable membrane a polymer film used. Membranes made from an ethyl cellulose derivative or ultra-thin membranes made of perfluorobutyrolethycellulose are suitable. But preferably membranes made of polycarbonate are used to Example the membrane from Generon type -KST G 2000. With the help of Polycarbonate membrane makes oxygen generation very efficient.  

The membrane is in flat form or preferably in the form of hollow fibers used.

According to the invention, an oxygen concentration gradient is generated by the water flowing past the oxygen-permeable membrane, preferably by circulating the water with the aid of a compressor, for example a pump. A volume flow of 1 to 2 m ³ / h is preferably set.

According to the invention, a partial flow of the air emerging from the device is in returned to the device in a circuit. That means part the air emerging from the device is preferably after a Pressure increase fed back to the device. This allows the oxygen be better exploited. The difference to the necessary volume flow of the Air through the device is balanced by fresh air, the fresh air is first compressed and then fed to the device.

The device and the method according to the invention are preferably used for Oxygenation of water from / for sewage treatment plants or drinking water used.

The device according to the invention and the method will now be described an illustration (figure) and an embodiment explained.

The figure shows an embodiment of the device according to the invention with a Separator of oxygen from air in cross section.

The device shown in the figure has a membrane module 1 (module) as Separator on. Module 1 has an oxygen-permeable plycarbonate Membrane 2, which in the form of a plurality of approximately parallel Hollow fibers 3 is formed. The hollow fibers 3 are on at least a first one and a second holding device 8, 9 fixed, for example from a Epoxy resin are made. Lines 4, 5, 6, 7 are arranged on module 1.  

The water to be enriched is fed to the module 1 via line 6 and via Line 7 is the oxygen-enriched water from module 1 again led away. Air is fed into the module 1 via a line 6 and through a first gas space 10 fed to the hollow fibers 3. The hollow fibers 3 escaping air is supplied to line 5 through a second gas space 11. It can be via line 12 and an associated shut-off device 13 be led away. A partial flow of air can alternatively or additionally Lines 14, 15 are fed to a compressor 16 and then, after completed pressure increase by the compressor 16 fed back to the module 1 become. Additionally or alternatively, fresh air can be supplied via a compressor 17 and are fed via a line 18 to line 15.

The device described above was used, for example, in a process for enriching drinking water with oxygen to improve the separation of iron. In this process, a pressure of 14 bar was set in line 4 with the aid of the compressor 16. The pressure upstream of the compressor 16 in line 15 was 11 bar and the volume flow of the air was approximately 3.3 m ³ / h.

The water was conducted in lines 6, 7 with a volume flow of approximately 1.5 m ³ / h. An oxygen content of approx. 20 mg / l could be enriched with oxygen, the oxygen concentration in the permeate being approx. 65% by volume.

Compared to the device and method according to the State of the art could thus be done with relatively simple technical means a quick, efficient solution of the oxygen input in the water can be achieved.

Claims (8)

1. Device for introducing oxygen into water, characterized in that the device is assigned a device for separating oxygen from air, which device for separating oxygen from air has at least one oxygen-permeable membrane for generating oxygen in molecular form, and that the oxygen permeable membrane is arranged in or on the insertion device so that one side of the membrane comes into direct contact with the water. 2. Device according to claim 1, characterized, that as an oxygen-permeable membrane, a polycarbonate membrane is used. 3. Device according to claim 1 or 2, characterized, that the oxygen-permeable membrane is designed as a hollow fiber membrane is. 4. method for introducing oxygen into water, characterized, that the oxygen in molecular form using a method for Separation of oxygen from air with an oxygen permeable Membrane is generated and that one side of the oxygen-permeable Membrane comes into direct contact with the water. 5. The method according to claim 4, characterized, that at least a partial flow of the air emerging from the device in a circuit is returned to the device.   6. The method according to claim 4 or 5, characterized, that as an oxygen-permeable membrane, a polycarbonate membrane is used. 7. The method according to any one of claims 4 to 6, characterized in that the water flows past the oxygen-permeable membrane with a volume flow of 1 to 2 m ³ / h. 8. Use of a device according to one of claims 1 to 3 or one Method according to one of claims 4 to 7 for the enrichment of water from / for sewage treatment plants or drinking water with oxygen.