RU2034600C1 - Concentrator - Google Patents

Abstract

FIELD: chemical industry. SUBSTANCE: concentrator has horizontal housing connected with systems for supplying initial liquid, discharging concentrated liquid, and removing secondary vapor and is provided with driving reverse drums. Flexible hoses are wound on the drums. The free ends of the hoses are bent out and secured to the housing over periphery. A heater is mounted between the bent ends of the hoses. The heater can reciprocate simultaneously with the hoses. EFFECT: improved design. 1 dwg

Description

 The invention relates to equipment used for concentration of solutions, and can be used for evaporation of temperature-sensitive solutions, for example sugar, milk and other organic substances in the food, chemical, pharmaceutical industries.

Known evaporator containing a heating chamber, a separator, a boiling pipe. A chipper is installed above the boiling pipe. The device is equipped with vertical partitions [1]
The disadvantage of this apparatus is the use of partitions, which increases the hydraulic resistance, increases the liquid level, contributes to the occurrence of stagnant zones in the chamber, and this reduces the efficiency of the evaporator.

Known evaporator, adopted for the prototype, consisting of a housing, a pipe heat exchanger, a rod drive, vertical partitions, scraper rings and nozzles for supplying and outputting material flows [2]
The disadvantage of the apparatus is its low efficiency.

 The aim of the invention is to increase the efficiency of the apparatus.

 To this end, an evaporator apparatus comprising a horizontal cylindrical body, a heat exchange surface located inside the body, and a system for supplying a source liquid and a heat carrier and for removing an evaporated solution and a secondary steam, according to the invention, is equipped with two drive reversing drums placed inside the body at its opposite ends with the possibility of synchronous rotation in the same direction, by a current source, a cable-rope, the ends of which are wound on a drum and connected to a current source, and a rod electron a heater placed coaxially with the housing between the reels and rigidly connected to the cable cable, and the heat exchange surface is made in the form of two flexible sleeves, one ends of which are worn on different sides of the heater and connected along the perimeter to its ends, and the other turned out and connected around the perimeter with the inner wall of the housing with the formation of a central and two peripheral cavities, while the systems for supplying the initial liquid and the removal of one stripped off solution and secondary vapor are in communication with the central cavity, and the system for supplying heat Itel peripheral cavities.

 The drawing shows the proposed apparatus, General view.

 The apparatus consists of a horizontal housing 1 with a rod electric heater 2. The central cavity of the housing 1 communicates with systems 3 and 4 for supplying the initial liquid, systems 5 and 6 for the removal of one stripped off solution, systems 7 and 8 for collecting secondary vapors. Reversible drive drums 9 and 10 are installed inside the housing 1 at the left and right side walls, on which the ends of the flexible hoses 11 and 12 are wound. The free ends of the hoses 11 and 12 are bent and fixed in the housing 1 so that they form sealed peripheral cavities 13 and 14, communicating with systems 15 and 16 supply of the working agent under pressure. In the sleeves 11 and 12 there are cable cables 17 connected to the current source 18. A coolant is used as a working agent.

 The device operates as follows.

 Rotating the drums 9 and 10 counterclockwise, move the sleeves 11 and 12 to the leftmost position. In the cavity 14 serves using the system 16 coolant. System 3 serves in the housing 1 a portion of the source fluid. The initial liquid is in contact with the heater 2, the heated sleeve 12, and is heated. The liquid evaporates. At this time, she is moved to the right. To do this, the drums 9 and 10 begin to rotate clockwise. The sleeve 12 displaces the coolant from the cavity 14 into the heating system 16, and the heated coolant enters the cavity 13 using the system 15. One stripped off solution is displaced by the sleeve 11 into the system 6, and the secondary vapors into the system 8. After the sleeves 11 and 12 occupy the extreme right position, system 4 serves a new portion of the initial liquid. Rotate the drums 9 and 10 counterclockwise. Sleeves 11 and 12 together with heater 2 move to the left. At the same time, a heated coolant is supplied to the cavity 14 by the system 16. When moving to the left, the fluid heats up and evaporates. One stripped off solution is displaced by the sleeve 12 into the system 5, and the secondary pairs into the system 7. After the sleeves 11 and 12 occupy the leftmost position, the cycle is repeated.

 The device has the following advantages: it is compact, the heat exchange surface is accessible for inspection and repair, it is convenient to remove deposits on the heat exchange surface, the intensification of heat transfer is not associated with the complexity of the installation, the increase in investment from operating costs.

Claims (1)

 A VEHICLE DEVICE, comprising a horizontal cylindrical body, a heat-exchange surface located inside the body, and a system for supplying a source liquid and a heat carrier and for removing an evaporated solution and a secondary steam, characterized in that, in order to increase work efficiency, the device is equipped with two drive reversing drums located inside case at its opposite ends with the possibility of synchronous rotation in the same direction, a current source, and a rod electric heater, placed coaxially with the body catfish between the reels and rigidly connected to the cable, and the heat exchange surface is made in the form of two flexible sleeves, one ends of which are worn on different sides of the heater and attached along the perimeter to its ends, while the other is turned out and perimeter connected to the inner wall of the housing with the formation of the Central and two peripheral cavities, while the supply system of the original fluid and the removal of one stripped off solution and the secondary vapor are communicated with the Central cavity, and the coolant supply system with peripheral cavities.

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