NL2005473C2 - METHOD AND DEVICE FOR PREVENTING BIOLOGICAL POLLUTION. - Google Patents

Description

5

Method and device for combating biological pollution

The invention relates to a method for preventing and / or combating and / or combating biological contamination in systems. In particular, the method relates to the prevention of such contamination on membrane surfaces.

In order to prevent contamination of system surfaces, such as membrane surfaces, reactor walls and tubes, as much as possible, aqueous streams such as waste water or process water, so-called anti-scalants or germ growth inhibitors are added. These additives reduce the pollution. A problem with this is that these substances must be added to the stream. An example is the addition of chlorine dioxide as a disinfectant. This increases costs. A further relevant problem is the effect that these additives have on the environment, for example through the discharge thereof on the surface water.

An alternative approach known from practice focuses on removing contamination, for example by using the rinsing of the surfaces.

The disadvantage here is that the (production) process is periodically stopped to carry out the cleaning. This reduces the efficiency of such a process.

An object of the present invention is to counteract the above problems and thus to be able to carry out treatment of streams, such as waste water, in a more effective and efficient manner.

This object is achieved with the method for combating and / or combating biological pollution in 2 systems according to the invention, the method comprising the steps of: - generating an electromagnetic and / or magnetic field with field generating means; and 5 - changing the polarity of the field to prevent and / or combat the adherence of biological contamination to a system surface.

Biological contamination is also referred to as "biofouling" or "biological fouling" and relates to the undesired accumulation of microorganisms such as protozoa that are relevant, inter alia, in relation to legionella, plants, algae and / or animals on wet surfaces.

"Antifouling" refers to the process of removing and / or preventing these accumulations.

The surfaces sensitive to "biofouling", or biological contamination, are in particular a membrane surface. This relates to, among other things, flat membranes and spiral wound membranes. However, other surfaces are also sensitive to this biological contamination, such as reactor walls and tube walls. The present invention can be applied to all of these surfaces.

The process of biologically fouling such a surface involves in a first phase the adhesion of their fouling element to a surface, such as a membrane surface. Such dirt particles are, for example, formed by microorganisms, plants and algae. It has surprisingly been found that by applying an electromagnetic and / or magnetic field this initial phase of the adhesion of the dirt particles to the surface can be influenced. According to the inventors, a possible explanation for this is that under normal conditions, i.e. without the application of an external electromagnetic and / or magnetic field, the earth's magnetic field exhibits a sort of orientation effect, in particular during the initial bonding phase. The strength of the earth's magnetic field is in the order of magnitude of 3-6-10 ". T. The application of an external electromagnetic and / or magnetic field therefore has a disturbing effect on this orientation in the first bonding phase. By changing the polarity of the externally applied field, a disturbing effect on the dirt particles, and in particular the adhesion thereof to the surface such as a membrane surface, is achieved. It has been found that this changing of the polarity of the externally applied field has essentially an effect on the initiation phase of the adhesion of dirt particles or contamination to a system surface. In this way the initial adhesion is prevented. Because this initial adhesion does not take place, or at least takes place to a lesser extent, the further growth of contamination on or on these surfaces will also be reduced. This in any case has a strong reducing effect on the degree of biological pollution occurring. Hereby it is achieved that fewer or no so-called anti-scalants need to be added and / or the process need to be interrupted less often for a cleaning action.

The method according to the invention can also have a curative or "recovery" effect. By generating an electromagnetic and / or magnetic field and changing the polarity, contamination is combated in an already contaminated system. This effect preferably cooperates with the preventive effect as described above. Hereby a great applicability of the method according to the invention is achieved.

In an advantageous preferred embodiment according to the present invention, the field of polarity 4 is exchanged with a frequency in the range of 10 ~ 2-10 + 6 Hz, preferably in the range of 1-10 Hz.

A disruptive effect on the dirt particles is achieved by changing polarity. It has been found that the alternating fields have a disturbing effect on the adhesion of such dirt particles. Such dirt particles particularly concern bacteria, and more particularly the Pseudomonas which forms part of the Pseudomonads family. These bacteria are known for forming biofilms on a surface such as a membrane surface. In particular in the processing of aqueous liquid streams, such as waste water and process water, these specific bacteria are able to form a biofilm. It has been found that this adhesion is disturbed by the changing external electromagnetic and / or magnetic field. Due to the change in the said range, and in particular in the most specific said range, a workable and efficient control of the adhesion is achieved.

In an advantageous preferred embodiment according to the present invention, the polarity is periodically changed at intervals in the range of 10-60500 seconds, preferably in the range of 3600-86500 seconds.

By not changing the polarity continuously and instead periodically, on the one hand a maximum control and / or avoidance of biological pollution on for instance a membrane surface is achieved, and on the other hand the additional use of energy is limited. An efficient and effective process for preventing and / or combating biological pollution is hereby realized. The most wide range corresponds to a polarity change of every ten seconds to once a week, while the preferred range shows a polarity change of 1 time per hour to 1 time per day. The optimum interval period between two polarity changes also depends on the specific conditions, such as the degree of contamination of the liquid flow to be treated. Other conditions, such as temperature, flow speed etc. also play a role in this.

In an advantageous preferred embodiment according to the present invention, a field strength is applied in the range of 0-2 Tesla, preferably 1 mTesla-20 mTesla, and most preferably about 2 mTesla.

By applying an external electromagnetic and / or magnetic field, the orientation of the dirt particles relative to the surface is disturbed, which also disturbs the initiation phase of biological pollution. The strength of the externally applied field is preferably above the strength of the aforementioned earth's magnetic field. In particular, it has been found that a strength of about 2 mTesla has a suitable effect on the disturbance of the initial phase of the biological contamination, and on the other hand can still be properly achieved without requiring an enormous energy consumption.

In a further advantageous preferred embodiment according to the present invention, the field is provided at an angle with the system surface.

By providing an angle between the field and the surface, the practical applicability of the method according to the invention is increased, since it provides more flexibility for the implementation of the invention. It has surprisingly been found that, inter alia depending on the specific liquid flow and the type of contamination present therein, the conscious handling of an angle between the field and the surface unequal to 90 degrees has a reinforcing effect on the prevention and / or control of the biological contamination on, for example, the 6 membrane surface. According to the inventors, this is possibly explained by a preferred orientation of the specific dirt particles which is counteracted as optimally as possible by applying an angle deviating from 90 degrees between the field and the surface. This further increases the effectiveness of the method according to the invention.

The invention further relates to a device for preventing and / or combating biological pollution, comprising electromagnetic and / or magnetic field generating means for generating an electromagnetic and / or magnetic field, such that adhesion of biological pollution is prevented and / or contested.

The same advantages and effects apply to such a device as to the method according to the invention. Control means are preferably provided for controlling the field. The control means can, among other things, control the frequency, amplitude and / or periodicity of the polarity changes. In a further embodiment, the control means are operatively connected to a measuring instrument for measuring the biological contamination. By providing measurement information about the degree and / or type of contamination in the aqueous liquid flow, the electromagnetic and / or magnetic field can be adjusted to this measured information. Hereby an effective and efficient device for preventing and / or combating biological pollution on a surface, such as a membrane surface, is achieved.

Further advantages, features and details of the invention are elucidated on the basis of the preferred embodiments thereof, wherein reference is made to the accompanying drawings in which: 7 - Figure 1 shows a view of a membrane surface with contamination; Figure 2 shows an embodiment of the invention with an electromagnetic field; Figure 3 shows an alternative embodiment with a magnetic field; and Figure 4 shows the embodiment of Figure 3 around a tube.

A membrane 2 (Figure 1) is exposed to a longitudinal flow in the direction of arrow A and a flow in the direction of arrow B of a liquid in which dirt particles 4 are present. Dirt particles 4, such as the Pseudomonas bacterium, tend to adhere to a surface of membrane 2 with suture 6.

A system 8 (Figure 2) for preventing and also combating biological pollution comprises an alternating voltage source 10 which acts on membrane 2 with the aid of circuit 12. For this purpose a first coil 14 is provided which is connected to a voltage source with a first sub-circuit 16. 10. Coil 14 is provided on a first side of membrane 2. In the embodiment shown, a second coil 18 is provided on the other side of membrane 2 which is also connected to voltage source 25 by means of second sub-circuit 20. System 8 furthermore over a controller 22 which, with the aid of a sensor 24, performs a measurement 26 on the surface of membrane 2 and / or on the liquid flow to thereby determine the degree and / or type of contamination 4. After measurement 26, sensor 24 sends measurement signal 28 to controller 22. Based on this, controller 22 sends a control signal 30 to voltage source 10 in order to adjust amplitude, frequency, and / or intervals, etc., as optimally as possible. In the embodiment shown, coil 14 is provided at an angle α 8. Optionally, coil 18 can also be provided at such or a different angle.

An alternative system 32 (Figure 3) provides a type of wheel 34 rotating around the membrane 2. Wheel 34 has a first type (N) magnet 36 and a second type (Z) magnet 38 arranged alternately on a wheel 34. By rotating wheel 34 a varying magnetic field is realized around membrane 2.

In a further application, a system 40 (Figure 4) is provided around tube 42. System 40 herein uses the previously shown wheel 34 with the two types of magnets 36, 38. This prevents, for example, bio-pollution on the wall of tube 42.

To prevent and / or combat biological contamination on, for example, a membrane surface, a biological fluid stream in which such contamination is present at the location of such a (membrane) surface 2 is exposed to an electromagnetic and / or magnetic field with the aid of system 8, 32 , 40.

Here, in particular, adhesion 6 of contamination 4 to membrane 2 is counteracted. Each of the systems 8, 32, 40 can be provided with a controller 22 which determines the setting values of the electromagnetic and / or magnetic field on the basis of information about the specific liquid flow. This specific information is, for example, measured with the aid of one or more sensors 24.

The present invention is by no means limited to the above described preferred embodiments thereof. The rights sought are defined by the following claims, within the scope of which many modifications are conceivable. For example, it is explicitly possible to combine specific aspects of the various embodiments shown, for example in systems 8, 32, 9 40. A provision of a controller 22 for the magnetic systems 32, 40 can be envisaged here.

Claims (10)

A method for combating and / or combating biological pollution in systems, comprising the steps of: 5. generating an electromagnetic and / or magnetic field with field generating means; and - changing the polarity of the field to prevent and / or combat the adherence of biological contamination to a system surface. Method according to claim 1, wherein the polarity change of the field substantially intervenes in an initiative phase of the adhesion of contamination to a system surface. 15 Method according to claim 2, wherein the system surface is formed by a membrane surface, tube wall and / or reactor surface. Method according to claim 1, 2 or 3, wherein the field of polarity is switched with a frequency in the range of 10 "2 - 10 + 6 Hz, preferably in the range of 1-10 Hz. Method according to one or more of claims 1-4, wherein the polarity is periodically changed at intervals in the range of 10-60500 seconds, preferably in the range of 3600-86500 seconds. Method according to one or more of claims 1-5, wherein a field strength is diverted in the range of 0-2 Tesla, preferably 1 mTesla - 20 mTesla, and most preferably about 2 mTesla. Method according to one or more of claims 1-6, wherein the field is provided at an angle with a surface. 5 8. Device for preventing and / or combating biological pollution comprising electromagnetic and / or magnetic field generating means for generating an electromagnetic and / or magnetic field, such that adhesion of biological pollution is prevented and / or controlled. Device as claimed in claim 8, comprising control means for controlling the field. 15 Device as claimed in claim 9, wherein the control means are operatively connected to a measuring instrument for measuring biological pollution.