DE4137281C2 - Process and device for controlling algae in fresh water - Google Patents

Description

The invention relates to a method for controlling algae in Water as well as one to perform this procedure suitable device.

With little moving or standing water, for example in Form water treatment plants, fire ponds or bathing lakes especially in the area of algae surface. The Algae growth is stronger the greater the influence of is ultraviolet radiation from sunlight. So far you have tries to solve the algae problem by adding chemical or biological means to master. Especially the chemical ones However, means to combat algae growth have Disadvantage that animals or plants living in the water should be preserved, be damaged.

US Pat. No. 4,869,016 describes a method for reducing Known marine rotting. For this purpose, a toxic dissociation produces toxic chlorine or copper ions, which kill the debris.

The object of the invention is to remedy this create and demonstrate a method and an apparatus that are able to enter the water without harmful substances to prevent the formation of algae or already grown Destroy algae and make them harmless.

According to the invention, this object is achieved by a method solved, which is that just below the water surface a stimulating current consisting of pulsating direct current without Dissociation effect is generated. Preferably, the Variable pulse shape and is, for example, by a triangular or sawtooth voltage.  

When using this method, it was found that the stimulus current pulses just below the water surface destroy or prevent the cellular structure of harmful algae these can arise in the first place. If algae are already present have formed, the process is capable of interlocking to loosen hooked root structures of the algae so that the entire algae composite sinks and can be suctioned off if necessary, so that the dreaded algal bloom is prevented.

The device suitable for performing the method according to the invention has a pulse generator to which at least two oppositely polarized electrodes immersed in the water are connected. Here is one of the two electrodes preferably one close to the surface of the water Pointed electrode, which can be attached to a float, while the opposite electrode is a rod or Plate electrode is attached to the water's edge. The Pointed electrode can be attached to the respective by means of the float desired place in the water, so that after Commissioning of the generator at any point on the Water the electrical field can be generated.

Further advantageous embodiments of the device are the subclaims refer to.

The invention is explained below using an exemplary embodiment tert, which is shown in the drawing. It shows

Fig. 1 shows a schematic vertical section through a water basin with a device according to the invention and

Fig. 2 is an enlarged view of the float carrying the pointed electrodes.

Fig. 1 shows schematically a water tank 11, for example a clarifier eich or a swimming pool. Outside the basin 11 , a pulse generator 1 is set up at the edge of the basin, which has two terminals 4 and 5 with opposite polarity. Holders 12 are attached in some places within the basin above the water surface 10 , from which support rods 13 protrude upwards, while rod-like or plate-like electrodes 2 extend downward into the water. One of the electrodes 2 is connected to the terminal 4 of the generator 1 via a line 3 . If the opposite electrode 2 (on the right in FIG. 1) is to be used, the line 3 is connected to the right electrode 2 instead of the left one.

The two support rods 13 shown in Fig. 1 are used to fasten a tensioned rope 7 , on which a connecting line 6 hangs. One end of the connecting line 6 is connected to the second connection terminal 5 of the generator 1 , while the opposite end leads to a connection 14 which protrudes from the top of a float 15 . The float 15 carries on its outer circumference four pointed electrodes 9 spaced 90 ° apart, which are located just below the water surface 10 and are connected to the connection 14 . On its underside, the float 15 has a chamber 8 into which a filler is inserted, which determines the immersion depth of the float 15 and can be varied according to the requirements.

Of course, the pointed electrodes 9 are guided out of the float 15 in such a way that penetration of water into the float 15 is prevented via sealing elements known per se and not shown. Penetrating water would result in an increase in the float weight and thus a decrease in the float 15 .

The float 15 itself is advantageously made of a plastic that is insensitive to the influence of water, air or light.

In operation of the device, the generator 1 generates voltage impulses of defined and selectable frequencies and duration, as a result of which an electric field is generated just below the water surface 10 , which prevents algae growth or destroys existing algae. The stimulation current pulses go from the ent speaking tip electrode 9 on the float 15 , namely from that electrode which is opposite the fixed electrode 2 .

The pointed electrodes 9 on the float 15 have a slightly negative potential between about 0.6 to a maximum of 1.7 volts DC during the impulse spurts; during the pulse phases, the negative electrode voltage is between 1.4 volts and 19.8 volts depending on the pulse shape. The shape of the pulses can be changed from very sharp needle pulses through triangular pulses to sawtooth pulses on generator 1 .

For energy supply, the generator 1 can have a built-in part with 230 volts. However, there is also the possibility to use an accumulator with a standard voltage of 12 volts in motor vehicles for supplying the generator. Such an accumulator with an amperage of 38 amps can continue to operate continuously for more than two weeks.

Another alternative is to feed the generator 1 via solar cells. Since algae growth only occurs during direct daylight, there is no need for an accumulator and a charge controller.

In Fig. 1 is finally indicated that an auxiliary float 17 is connected to the generator 1 via a further line 16 , which carries a sensor 18 immersed in the water. This photosensitive sensor 18 determines the water turbidity below the water surface and causes the generator 1 to be switched on only when the water has exceeded an adjustable nominal turbidity, which suggests the start of algae growth.

Claims (9)

1. Procedure to combat algae in fresh water with the help of an electric field, in which close below the Water surface is a pulsating direct current Stimulation current is generated without dissociation. 2. The method of claim 1, wherein the pulse shape is variable is. 3. Device for performing the method according to claim 1 or 2 with a pulse generator ( 1 ), to which at least two oppositely polarized, immersed in the water electrodes ( 2, 9 ) are connected. 4. The device according to claim 3, wherein one of the two electrodes is formed as a point electrode ( 9 ) lying just below the water surface ( 10 ). 5. The device according to claim 4, wherein the pointed electrode ( 9 ) protrudes from a float ( 15 ). 6. The device according to claim 5, wherein the float ( 15 ) carries a plurality of pointed electrodes ( 9 ). 7. The device according to claim 5 or 6, wherein the float ( 15 ) has a chamber ( 8 ) for receiving a filling mass determining the depth. 8. Device according to one of claims 4 to 7, wherein the electrode ( 2 ) opposite the pointed electrode ( 9 ) is a rod-shaped or plate-shaped electrode. 9. Device according to one of claims 3 to 8, in which a light-sensitive sensor ( 18 ) is provided for controlling the generator ( 1 ), which detects the water turbidity under the water surface ( 10 ).