DD213909B1 - DEVICE FOR TREATING FLUIDS WITH MAGNETIC FIELDS - Google Patents

Description

According to the invention this is achieved by a device in which disc-shaped magnets are arranged one behind the other in the hollow body, which are held by spacers to a field strength determining distance and mutually sealed against the wall of the hollow body or in the center or provided with a passage. An advantage is the use of ceramic permanent magnets that are resistant to the attack of water and its dissolved components. To promote the isotropic turbulent state of the fluids flowing through, these magnets are to be designed with sharp edges. The magnets are fixed by spacers, eg made of plastic materials, in the tube axially and radially. The device according to the invention was used in the irrigation of cucumbers in greenhouses. The throughput of nutrient solution enriched irrigation water was determined to be 120m ³ / h. It thus represents a good irrigation technological value for greenhouse crops. Within a growing season from April to July, yields of 9 to 10% could be demonstrated in comparison with cucumber cultures which were irrigated without the device according to the invention. The comparison areas amounted to about 1000 m ² .

It could be observed that the flowering of the plants and the harvest of fruits used about 8 to 14 days earlier than in the comparison areas in which the device according to the invention was not used. Similar effects are well known as z. B. from FR-PS1206631, which describes in general terms a method for the magnetic treatment of irrigation water. It should be noted that the possibility of generating isotropic-turbulent behavior in the magnetic field for irrigation of field crops necessary amounts of water can be treated. This makes it possible to use the actually known effects on an industrial scale. When using the device according to the invention for the treatment of liquids in magnetic fields with isotropic turbulent flow state, it was observed that the o. G. positive effects on plant growth associated with post-treatment finely divided gas bubbles

 i

embodiment The invention will be explained below using an exemplary embodiment. In the accompanying drawing show

Fig. 1: Schematic representation of a device for the treatment of liquids in magnetic fields; 2: section A-A in the planes rotated in each case by 120 ° C,

'wherein the arrows indicate the direction of flow.

To produce a process technically required flow state in magnetic fields is in a non-ferromagnetic hollow body (1), z. As a pipe made of PVC, which is installed in irrigation, a repeating combination of magnets (2) made of ceramic permanent magnets and spacers (3) introduced. The arrangement is such that the passing irrigation liquid, such as fertilizer solution, manure or the like passes through several fields. In this case, the flow direction changes several times with respect to the axial direction of the hollow body (1). The magnets (2), which are formed in the example of circular disks and rings, can also be designed as plates. In the example shown, the field strength between the magnets is 2 K-Oerstedt, the distance from the spacers is 12 mm. The determined depending on the throughput residence time of the liquid was carried out with 0.8 to 1.2s. The device shown can be set up in the sprinkler network in battery form or insert in hose lines or attach directly before the sprinklers in sprinklers or machines. The duration from the exit from the device to the point of fluid leakage or to the plant should not exceed two minutes.

Claims (3)

1. A device for the treatment of liquids with magnetic fields in a non-ferromagnetic hollow body, characterized in that in this hollow body (1) in succession disc-shaped magnets (2) are arranged, held by Distanzstucken (3) to a field strength determining distance and mutually against the wall of the hollow body or sealed in the center or are provided with a passage. 2. Device according to item 1, characterized in that the magnets (2) are ceramic permanent magnets. 3. Device according to item 1 and 2, characterized in that the Oistanzstücke (3) axially and radially fix the disc-shaped magnets42) in the hollow body (1). For this 2 pages drawings Field of application of the invention The invention relates to a device for the treatment of liquids with magnetic fields, for. For example, irrigation agricultural crops, esp. For growing vegetables in the field and in greenhouses, so as to stimulate the growth of plants effectively. Characteristic of the known technical solutions It is already known. To treat water for irrigation purposes with magnetic fields (FR-PS 1206631). In corresponding devices, the water is passed through narrow gaps, which are each formed by a permanent magnet and a paramagnetic part (FR-PS 1145070). This has the disadvantage that due to the required large field strengths, a significant limitation of the water flow occurs and thus the possibility is limited to use such treatment methods and devices in the irrigation of agricultural crops, because there, z. B. in the cultivation of cucumbers in greenhouses, larger quantities of water must be applied within a short time. But there are also known devices in which permanent magnet plates are arranged with sharp Abrißkanten within a non-ferromagnetic tube parallel to the Hauptdurchflußrichtung so that the liquid must pass at least two bottlenecks and thus areas of high field strength (AT-PS 209275). Although a larger flow is achieved, but there is no longer residence time of the liquid in fields of certain field strength or there is no repeated magnetic field effect and no significant change in the direction of flow of the liquid. It is also known to extend the residence time of the liquid in the magnetic field by special installations in a lined with ring magnet tube piece, but also in this device, the liquid in principle again only a single magnetic field passes (SU-PS 994431). Finally, it is still known to arrange annular or cylindrical magnetic bodies in tightly spaced contiguous within the tube, so that in turn can form only a magnetic field and the liquid flow is divided beneficial (DE-OS 2814286). Object of the invention The aim of the invention is therefore to improve the effectiveness of said devices in terms of throughputs and magnetic field treatment. Explanation of the essence of the invention The invention is therefore based on the object to develop a device for the treatment of liquids with magnetic fields in a non-ferromagnetic hollow body, which exposes the liquid over a longer residence time several magnetic fields after a high flow rate and in this context repeatedly changes the direction of movement of the liquid to be treated , It has now been found that the known effects of the property change of water or aqueous solutions or other liquids are achieved even at high flow rates, when the water flowing through the magnetic fields has an isotropic-turbulent state. The term "water" also includes all liquids which are suitable for irrigating agricultural crops.