RU2034612C1 - Concentrator - Google Patents

Abstract

FIELD: concentrating heat sensitive and viscose liquids. SUBSTANCE: concentrator has horizontal housing provided with systems for supplying initial liquid and heat carrier and discharging heat carrier, concentrated solution, and the secondary vapor and heat exchanging surface positioned inside the housing. The concentrator is provided with driving drum positioned at the end inside the housing. The heat exchanging surface is made up as a flexible hose mounted to define two spaces and to permit horizontal reciprocation. One end of the hose is wound on the drum. The other end is bent out and secured to the internal wall of the housing over periphery. The system for supplying initial liquid and discharging concentrated solution and secondary vapor are in communication with one space. The systems for supplying and discharging heat carrier is in communication with the other space. EFFECT: enhanced efficiency. 1 dwg

Description

 The invention relates to evaporation technology and can be used in chemical and related industries to implement the process of evaporation of heat-sensitive and viscous media.

Known vacuum evaporator containing a housing, tube sheets, horizontal heating pipes, generator of artificial boiling centers [1]
The disadvantage of the evaporator is the design complexity. The presence of a large number of unreliable pipe connections with tube sheets inside the apparatus complicates their repair, and this reduces the efficiency of the installation.

Known evaporator adopted for the prototype, and consisting of a housing, two chambers, heat transfer pipes, a drive with a rod, vertical partitions, scraper ring bushings [2]
The disadvantage of this apparatus is the complexity of its design.

 To this end, an evaporator comprising a horizontal housing with systems for supplying a source liquid and a heat carrier and removal of a heat carrier, an evaporated solution and a secondary steam and a heat exchange surface located in the housing, according to the invention, is equipped with a drive drum located at the end inside the housing, and the heat exchange surface is made in the form a flexible sleeve installed with the formation of two cavities and with the possibility of horizontal reciprocating movement, one end of the sleeve is wound on the drum, and the other bent and attached around the perimeter to the inner wall of the housing, while the systems for supplying the initial liquid and the removal of one stripped off solution and the secondary steam are in communication with one cavity, and the systems for supplying and removing the coolant from the other.

 The drawing shows the proposed apparatus, General view.

 The apparatus consists of a horizontal housing 1, part 2 of which is cylindrical. Inside the housing 1, a reversible drive drum 3 is mounted on which a flexible sleeve 4 is wound. The free end of the sleeve 4 is bent and fixed along the perimeter of the cylindrical part 2 of the housing 1. The housing 1 communicates with the pressure supply system 5. The cylindrical part 2 of the housing 1 communicates with the system 6 for supplying the initial liquid, the system 7 for removing one stripped off solution, and the system 8 for collecting secondary vapors.

 The device operates as follows.

 System 5 serves in the housing 1 of the coolant under pressure. As a result of this, the sleeve 4 is twisted from the drum and penetrates into part 2 of the housing 1. Sleeve 4, tightly fitting to the inner walls of the housing 1, heats it. As soon as the sleeve 4 reaches the extreme right position, the coolant is shut off and the drum drive 3 is turned on, which winds the sleeve 4. The coolant is extruded into the system 5 for heating and further use. When pulling the sleeve 4 from the cylindrical part 2 of the housing 1, a vacuum is created in it. The source liquid is injected using system 6. The source liquid, falling on the walls of the housing 1, heats up, boils and evaporates intensively. After the sleeve 4 occupies the extreme left position, the heated fluid is supplied by the system 5. The sleeve 4 is wound from the drum 3 and moves along the cylindrical part 2 of the housing 1, while heating its walls, squeezing one stripped off solution into the system 7, and the secondary pairs into the system 8. The cycle is repeated.

 The device has the following advantages: it is compact, simple to manufacture and convenient to operate, thermal decomposition, gum formation, carbon deposits and other effects of thermal exposure are excluded, the device is suitable for evaporation of viscous and heat-sensitive solutions.

Claims (1)

 A VEHICLE DEVICE, comprising a horizontal case with systems for supplying a source liquid and a heat carrier and removal of a heat carrier, one stripped off solution and secondary steam, and a heat exchange surface located in the case, characterized in that, in order to simplify the design, the device is equipped with a drive drum located at the end inside housing, and the heat exchange surface is made in the form of a flexible sleeve installed with the formation of two cavities and with the possibility of horizontal reciprocating movement, one end of the ru the kava is wound onto the drum, and the other is bent and fixed around the perimeter on the inner wall of the body, while the systems for supplying the initial liquid and for removing the evaporated solution and secondary steam are in communication with one cavity, and the system for supplying and removing the coolant from the other.

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