RU2048463C1 - Device for cleaning suspensions of organomineral substances, mainly sapropel and/or peat from solid fraction - Google Patents

Abstract

FIELD: production of organic fertilizers. SUBSTANCE: as cylindrical working chamber rotates in suspension of organomineral substances, suspension is passed through opening in working chamber bottom. During centrifuging, solid fraction particles remain on the inner walls of working chamber, and liquid fraction flows over circular edge located in the upper part of working chamber. EFFECT: higher efficiency. 3 cl, 2 dwg

Description

 The invention relates to means for cleaning organomineral substances from harmful fractions, mainly suspensions of sapropel, peat, livestock waste.

 In the process of production of fertilizers, growth biostimulants, it is required to clean the suspension of organomineral substances from the solid fraction, which may be sand, clay, etc. The most common methods for isolating the solid fraction are based on the settling of the resulting suspension, as a result of which solid particles are lowered to the bottom of the tank. However, such a path is unprofitable due to the considerable time required for sludge, in addition, significant capacities are required to ensure the required performance.

 Closest to the invention is a device for cleaning a suspension of organomineral substances from a solid fraction, containing a container for the suspension to be cleaned, in which there is a working chamber in the form of a body of revolution in communication with a rotation drive, and an annular edge is made in the upper part of the working chamber perpendicular to its axis of symmetry , and in the bottom there is an opening, and longitudinal partitions are located on the inner walls of the working chamber.

 The disadvantage of this device is that the suspension must be fed into the hole of the bottom, and for large particles of solid fraction, the device may be ineffective.

 The aim of the invention is to increase the efficiency of the device, its operational parameters and its applicability.

 This is achieved by the fact that at least one additional hole is made in the bottom of the working chamber that is identical to the aforementioned one, and all the holes are located symmetrically with respect to the axis of rotation of the working chamber, and the inner diameter of the annular edge is equal to the diameter of the circle passing through the most distant points of the edges of the holes moreover, the side surface of the chamber can be made cylindrical, and the rotation drive is configured to change the number of revolutions.

 In this case, when separating the solid fraction from the liquid one in the presence of a suspension of sufficiently large particles, fiber particles, clay, sand residues, it is impossible to use known centrifugation methods, since this results in clogging of the drainage holes in the walls of the centrifuge with solid inclusions, in accordance with which the principle was used separation of fractions, based on the separation of particles by mass during the rotation of a cylindrical body in which there is a suspension, but the removal of the liquid fraction in this case occurs due to "transfusion" e through the upper edge located in the working chamber.

 In FIG. 1 shows a device for cleaning a suspension of organomineral substances from a solid fraction; in FIG. 2 is a section along AA in FIG. 1.

 The device contains a container 1 for the suspension to be cleaned 2. In the container, a working chamber is located in the form of a body of revolution, for example, a cylinder 3, in the upper part of which an annular edge 4 is made, and in the bottom part 5 there are at least two openings 6 located symmetrically with respect to the axis rotation of the shaft 7 of the working chamber. Holes 6 may be several, however, they should be located symmetrically relative to the shaft 7, through which the axis of symmetry of the cylinder passes. It should be noted that the inner diameter of the annular edge 4 is equal to the diameter of the circle passing through the most distant points of the edges of the holes 6.

 On the inner surface of the working chamber there are longitudinal partitions 8 extending along the chamber. The cylinder is mounted on a shaft 7 connected to a rotation drive 9, comprising an electric motor 10 with a control unit 11, for example, based on thyristors. But the wire can be made according to any other known scheme, the main thing is that its speed can be adjusted during the operation of the device.

 A device for cleaning a suspension of organomineral substances from a solid fraction works as follows.

 Sapropel or peat is placed in tank 1, after which water is added. By means of a mixer (not shown) or by placing the cylinder 3 and including its rotation drive, a suspension is obtained from these substances by mixing them with water. By placing the cylinder 3 in the suspension obtained, the number of revolutions of the shaft 7 is established, i.e., the output of the actuator 9 is approximately one thousand per minute. The suspension is set in motion and its surface takes the form of a paraboloid of revolution. Through the openings 6, the suspension, being captured by the edges of these openings, passes into the cylinder, where solid particles are fixed at the walls of the cylinder between the partitions 8. The liquid fraction passes through the inside of the cylinder and overflows through the annular edge 4, i.e., it enters again into the container. The cleaning process takes place continuously, to the necessary degree of filling the internal space of the cylinder. After that, the working chamber 3, the cylinder is removed from the suspension, cleaned of the solid fraction, and the process is continued with the cylinder lowering into the suspension 2 and including the rotation drive 9. By changing the number of cylinder revolutions, the desired fraction can be separated, i.e., a predetermined degree can be cleaned.

 Thus, when the device is in operation, the working chamber can be used as a mixer when mixing the initial product with water, as a homogenizer, and as a separator of a given solid fraction.

 The use of this device allows you to effectively carry out the separation of the solid fraction from a suspension of organomineral substances, for example, upon receipt of highly effective biostimulants from sapropel or peat, as well as when treating wastewater from livestock enterprises, feces, any silty sediments, etc. while the device is highly efficient and simple in operation.

Claims (3)

 1. DEVICE FOR CLEANING SUSPENSION OF ORGANOMINERAL SUBSTANCES, PREFERREDLY OF SAPROPEL AND / OR PEAT, FROM A SOLID FRACTION, containing a container for the suspension to be cleaned, in which there is a working chamber in the form of a rotation body communicated with a rotation drive, and its perpendicular in the upper part of the working chamber the axis of symmetry is made an annular edge, and in the bottom of the hole, and on the inner walls of the working chamber there are longitudinal partitions, characterized in that at least measures are made in the bottom of the working chamber e one additional hole identical to the main one, all holes being symmetrically relative to the axis of rotation of the working chamber, and the inner diameter of the annular edge is equal to the diameter of the circle passing through the most distant points of the edges of the holes.  2. The device according to claim 1, characterized in that the rotation drive is configured to change the speed.  3. The device according to claim 1, characterized in that the side surface of the working chamber is cylindrical.

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