SU1067137A1 - System for purifying aqueous media - Google Patents

Abstract

1. SYSTEM OF PURIFICATION OF AQUEOUS MEDIA FROM organic impurities, including an mechanical pump with nozzles for collecting impurities and a magnetic field source with a ferromagnet-. These poles are different from the fact that, in order to increase the efficiency of purification of the aquatic environment from organic impurities, the ferromagnetic poles of the magnetic field source are made in the form of truncated co-nuses facing each other with smaller bases, and the pipes for collecting impurities are located in the gap between the poles of the magnetic system. 2. A cleaning system according to claim 1, characterized in that the poles are made with a cross section in the form of a multi-beam star. 3. The cleaning system according to claim 1, characterized in that the source of the magnetic field is made on permanent magnets. r 4. The cleaning system according to claim 1, in connection with the fact that the source of the magnetic field is made on electromagnets.

Description

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Fig. 1, refers to the protection of okruzhanvdvy. environment, in particular to the purification of the aqueous medium from oil, fuel oil / oils and other organic impurities .. A device is known for cleaning the aqueous medium from organic impurities, including mechanical; pump with nozzles for collecting impurities and the source of the magnetic fell p.J. However, the known device has a large surface of the magnetic system, which leads to the capture of large masses of water during movement (non-polar for the process. Cleaning); an inefficient method of exciting the magnetic field {with the absence of a multi-turn winding), which reduces the cleaning efficiency. The aim of the invention is to increase the efficiency of the purification of the aqueous medium from organic impurities. The stated goal of dststiga.ts with the fact that in the system of purification of the aqueous medium from organic impurities, including a mechanical pump with nozzles for collecting impurities and a source. the magnetic field with ferromagnetic poles, the ferromagnetic poles of the magnetic field source are made in the form of truncated cones facing each other with smaller bases, and the nozzles for collecting impurities are located in the gap between the poles of the magnetic system. . Ferromagnetic poles are made with a cross section in the form of a multi-eaudible star. . The source of the magnetic field can be. on permanent magnets. .. The source of the magnetic field can be performed on electromagnets. Such an embodiment of the system makes it possible to increase the efficiency of cleaning the aqueous medium from organic impurities using a magnetosensitive reagent, since the magnetic liquid based on kerosene does not grow in water and easily dissolves in oil, fuel oil, oil, etc. , they are depleted. A magnetic oil in a non-uniform magnetic field moves the field from the maximum-tension zone, from where it is pumped out by a mechanical pump. The performance of this cleaning theme is proportional to the saturation magnetization of the magnetic oil, the magnetic induction gradient and the size of the volume of the working gap. The saturation magnetization of magnetic oil is 0.1–1 kA / m (which corresponds to a volumetric magnetite content of 0.02–0.15%) and a magnetic induction gradient of 5–10 Ta / m; the maximum productivity (purification rate) is 10–15 thousand liters per hour per meter length of the gap. FIG. 1 shows schematically a purification system located on the surface of water covered with an oil film; in FIG. 2 is a view A of FIG. one; in fig. 3 shows a section BB in FIG. 2 (pole beam); in fig. 4 g magnetic system using a permanent magnet. The cleaning system contains a PSG source, which is an electromagnet consisting of coil 1 with core 2. Core 2 is connected to ferromagnetic poles 3 / which create in the working gap a non-uniform magnetic field with a gradient directed along the surface of the water. The gap between the poles is non-uniform along its length, so there is a magnetic induction gradient directed along the perimeter of the gap. In the areas of maximum magnetic field there are nozzles 4 for collecting organic well O in the plan each pole has the shape of a multi-beam star (Fig. 2). Each pole is profiled in the shape of a trihedral pyramid so that the bases of them are directed towards the core, and the edges of rays of opposite poles facing each other form truncated cones. Section. The beam is shown in FIG. 3. The source of the magnetic field can be made in the form of a permanent magnet (FIG. 4). The device is operated in the following manner. To clean the aqueous medium, for example, from oil, the latter is magnetized, a magnet is sprayed on the surface, a liquid that mixes with the oil. A device for introducing a magnetic fluid into a voduch) medium is an oacenetized nebulizer (not shown). The amount of magnetic fluid sprayed is taken from 1 to 10% of the volume of spilled oil. depending on the saturation magnetization of the magnetic fluid. The device is immersed in water so that the nozzles 4 are ok; they are stuck in the oil layer and maintained at this level, for example, using a pontoon.,. Then, power is supplied to the coil 1 and the mechanical pump connected to the nozzles 4 is turned on. The magnetic oil is pulled into the gap of the pole by the poles 3 and moves due to the non-uniformity of the gap to the zones of the maximum magnetic field where the nozzles 4 are located.

In general, the cleaning system makes it possible to practically practically collect oil or other organic impurities from the surface of the water.

If it is impossible to provide a cleaning system with electrical power supply and the difficult accessibility of the reservoir to be cleaned / as well as in case of need to save electricity,

using a permanent magnet cleaning system. Use of system of cleaning in submersible option is possible.

Testing of the cleaning system layout in LD1 boron and field conditions showed the effectiveness of the water surface cleaning system from oil and other organic impurities. .

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Claims (4)

1. SYSTEM OF CLEANING THE WATER MEDIA from organic impurities, ’including a mechanical pump with nozzles for collecting impurities and a source of magnetic field with ferromagnetic. different poles, characterized in that, in order to increase the efficiency of purification of the aqueous medium from organic impurities, the ferromagnetic poles of the magnetic field source are made in the form of truncated cones facing each other with smaller bases, and the pipes for collecting impurities are located in the gap between the poles magnetic system. . 2. The cleaning system according to π. 1, characterized in that the poles ’are made with a cross section in the form of a multipath star. 3. The cleaning system according to claim 1, characterized in that the magnetic field source is made with permanent magnets. 4. The cleaning system according to π. 1, the fact that the source of the magnetic field is made on electromagnets.