SU806054A1 - Roll crystallizer - Google Patents

Description

(54) ROLLER CRYSTALIZER

Claims (2)

The invention relates to chemical engineering, in particular to roller coaters used in the chemical industry for the crystallization of melts of organic and inorganic substances. Roller molds containing a molten bath, a rotating roller, cooled from the inside, are known. and partly immersed in the molten product, and noxs in contact with the surface of the drum, designed to cut solid sediment 1J These molds are equipped with various devices for the inside of the drum, the disadvantages of which are high capital and operating costs, uneven cooling of the working surface of the drum and the need in the filtration of water supplied to the crystallizer. The purpose of the invention is to increase the heat exchange coefficient due to the use of water-air mixture as a coolant, increase the reliability of the apparatus and reduce capital and operating costs. This goal is achieved by the device for cooling the drum made in the form of a cylindrical cup with a central hole, concentrically installed inside drum and rigidly connected to it with the help of perforated ribs. - In this case, the trunnion is provided with a coolant supply pipe connected to the glass through the central opening. In Fig.1 schematically shows the proposed mold, a cross-section in Fig.2 is a section aa in Fig.1. The mold includes a bath 1 for the molten product, equipped with a jacket 2, a rotating hollow roll 3 mounted on the bath by means of pins 4 and 5 equipped with bearings 6 and 7, a rotating roll 8 for melting the working surface of the drum, knives 9 for cutting solid sediment from the working surface of the roller. The device for air-water cooling of the roller is made in the form of a cylindrical glass 1C concentrically located inside the roller and rigidly connected to it with a central hole in the bottom through which the glass cavity is connected to the pipe 11 for supplying air and water located inside the hollow journal 5, which equipped with a collector 12 with a pipe 13 for exhausting air and water vapor. On the outer surface of the glass 10, longitudinal perforated fins 14 are fastened. The fitting 15 is intended for the supply and removal of the melt, and the fittings 16. and 17 for the supply and removal of the heat carrier into the cavity of the drum jacket. The fitting 18 is intended for the supply of air and water, and the fitting 19 for the removal of air and water vapor. Pipeline 20 with valve 21 is designed to continuously supply a small amount of water inside the mold, so that as the evaporation proceeds, the water level inside the drum is maintained at about 1/3 of the drum radius. The mold works as follows. In the process of rotating the hollow drum 3, which is in direct contact with the roller 8, the roller is partially immersed in the molten product and the liquid is transferred to the cooled surface of the roller, where it crystallizes in the form of a hard zorki and, in contact with the blades, it flakes off in the form of flakes. The molten product is continuously fed into the bath through the nozzle 15. To stabilize the temperature, the melt is fed into the bath shirt through the nozzle 16 heat carrier. The coolant is discharged through the fitting 17. Air and water are supplied through the fitting 18, pass through the internal cavity of the cylindrical cup 10, then air enters the gap between the outer surface of the cylindrical cup and the inner surface of the drum 3, flows around the perforated fins 14 moistened with water, and through the collector 12 and the nozzle 19 enters the ventilation system, with a small amount of water vapor formed inside the drum being carried away with air. The introduction of an air-water cooling drum to the design of the mold makes it possible to obtain an economic effect by increasing the heat transfer coefficient, reducing capital and operating costs, as well as increasing the reliability of the mold and expanding its application area. Claim 1. Roller crystallizer, including a bath for melt a roller, a device for melt deposition on the surface of a roller, a device for cooling a roller containing a hollow axle for supplying and discharging coolant and knives for removing the finished product, characterized in that, in order to increase the coefficient heat exchange due to the use of water-air mixtures as a coolant, increasing the reliability of the apparatus and reducing capital and operating costs. The device for cooling the drum is made in the form of a cylindrical glass with a central hole, concentrically mounted inside the drum and rigidly connected to it with the help of perforated ribs. 2. A crystallizer according to claim 1, characterized in that the floor of the trunnion is provided with a pipe for supplying coolant connected to the glass through a central opening. Sources of information taken into account during the examination 1. Gelperin I. I., Nosov G. N-. Fundamentals of crystallization solutions. M., - Himi, 1975, p.128-133 (prototype).