SU1038778A1 - Rotating refrigerator for loose material - Google Patents

Abstract

1. A ROTATING REFRIGERATOR FOR THE BULK MATERIAL, comprising a housing, a loading chamber, a spiral tubular heat exchanger, support stations and an actuator, so that, with the aim of simplifying / 7 f 5 L 7 // / and // design of the refrigerator and increase its reliability in operation; spiral tubular heat exchanger c. coils made with at least one straight-line section mounted on a longitudinal hollow support beam supported outside the body of the refrigerator. 2. Refrigerator according to claim 1, which is based on the fact that the supporting beam is provided with a sliding support on racks fixed in the body of the refrigerator. 3. Refrigerator according to item 1, about tl and "that the support beam is made with the possibility of rotation around its longitudinal axis. (P c 00 c «h 00

Description

The invention relates to chemical engineering, in particular to rotary chillers for cooling bulk materials with a wide grain size composition, including the presence of particles with a size of 2 40 mm or more. Rotary kilns with built-in spiral heat exchangers 3 are known. However, such kilns are difficult to use in rotating refrigerators, since they require special couplings to be installed at the ends of pipes, connected to a fixed water supply pipe and a fixed hot or steam removal pipe. Also known is a rotating chiller with water cooling, which provides partial heat utilization and requires water to cool the casing, since it provides for the installation of a built-in tubular heat exchanger of relatively small length 2. Although this refrigerator provides for almost complete utilization of material heat, it can be used to replace air-cooled refrigerators in furnaces operating in the industry instead of them. The purpose of the invention is to simplify the design of the refrigerator and increase its reliability. This goal is achieved by the fact that a rotary cooler for a bulk material, comprising a housing, a loading chamber, an alcoholic tubular heat exchanger, supporting stations and a drive, ax @ 4, a spiral tubular heat exchanger with coils made with at least one straight section, mounted on a longitudinal hollow support beam, supported outside the body of the refrigerator. In addition, the support beam is provided with a sliding support on racks fixed in the body of the refrigerator. The support beam can be rotated around its longitudinal axis. The proposed refrigerator is easy to manufacture and maintain, as it does not require parts with high precision manufacturing and sealing of movable joints at a pressure of 2-3 kgf / cm (cooling pressure of water). Spiral coil tubing areas placed in the layer of material are fully located in the lowering of the material on the inclined surface of the layer (at an angle of natural slope), which does not prevent the refrigerator from lifting the material. This ensures optimal heat transfer to the submerged sections of the tubes without creating additional resistance to the rotation of the refrigerator body. FIG. 1 shows a refrigerator, a longitudinal section; in fig. 2 - section А-А on. 1. The refrigerator consists of a body of 1 s. with bands 2 and 3 and a gear ring 4. In case 1, retaining washers 5 and 6 and heat distributions 7 are installed. The bandages rest on supporting stations 8 and 9, and gear teeth 4 are connected with drive 10. From boot K9its, case 1 is covered by loading chamber 11 with a loading pipe 12 "The floor of the supports was inserted into the haste 13, on which 14 spiral coil pipes were fastened. The pipe of one coitz coil 15 is connected with the hollow support beam 13, and the second end coil with pipe 1b of the housing brought out. An intermediate support 17 can be installed in the housing 1. Then the pipe 16 is connected to the hollow bushing 16 (mounted on the beam 13) to which it is attached to the outlet end of the pipe 16. One end of the support beam 13 rests on the post 19, and the second the end either to a similar rack or to a loading chamber 11 (FIG. 1). The ends of the base support beam 13 are covered with lids, and a patrol of the side 20 is welded to the bottom of the kotokshh. At the stand 19, the device 21 days of the turn of the beam 13 around its axis is strengthened. Section 22 of the helix coil, immersed in a layer of material, is straight linear. The cooler operates like a .3OM. The housing 1 is driven by the drive 10. The pipe 16 is supplied with water, which passes through the turns of the spiral coil 14. The feed tube 12 inside the housing 1 is supplied with hot material to be cooled. The hot material fills the casing 1 between the retaining rings 5 and 6. As the material moves along the casing, it gives off heat to the water moving along the heatsink 14 of the heat exchanger. With increasing height of the layer of material to the height of the retaining ring 5, the material will pour over it and with a thin layer approach the discharge end of the drum, additionally cooled with ambient air. In the area between the retaining rings 5 and 6, the material moves along the furnace in a high layer, in cross section this layer moves in two streams. The layer of material adjacent to the body rotates with it, raising it to a height that allows the inclination of the outer surface of the layer to correspond to the natural slope of the material. Raised in cross section, the material rolls down an inclined surface. syu t Rolling material occurs in a layer. The linear portion 22 of the turn is located in this roll with the layer, which provides for the intensification of heat transfer from the material. The installation of the straight line section 22 of the turn parallel to the outer surface of the layer is performed by the device 21, turning the beam 13 Water evaporates as it moves along the turns 14 and diverts as / pair into the internal space of the beam 13 which is withdrawn through the nozzle 20..

The proposed design is simple. in production and service, it can be realized in the operating refrigerators with air cooling.

The economic effect of using such a refrigerator is determined by the ability to recover heat from the processed material to produce process steam. So, when upgrading an air cooler in a kiln plant to get a shun of gizit with a capacity of 20,000 tons

0 per year. In case of cooling of shungizite with up to 10,000 tons of steam per year is possible in such a refrigerator. This is equivalent to saving more than 800 tons of mazut.

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With a cost of 25 rubles per ton, the economic effect is about 20,000 rubles.

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Claims (3)

1. ROTATING REFRIGERATOR ’FOR BULK MATERIAL, comprising a housing, a loading chamber, a spiral tubular heat exchanger, support stations and a drive, characterized in that, in order to simplify the design of the refrigerator and increase its reliability,“ spiral tubular heat exchanger with. turns, made with at least one rectilinear section, mounted on a longitudinal hollow support beam, supported outside the refrigerator. 2. The refrigerator according to claim 1, characterized in that the support beam is provided with a sliding Support on the racks fixed in the refrigerator body. 3. The refrigerator according to claim 1, wherein the support beam is configured to rotate about its longitudinal axis. |