RU2093235C1 - Evaporator - Google Patents

Abstract

FIELD: heat engineering. SUBSTANCE: evaporator comprises four evaporators in which solution circulates forcedly, pumps with delivery pipe lines, and condenser. The delivery pipe line of the evaporator pump of low pressure is connected to the evaporator of higher pressure through a pipe line. The second and fourth evaporators are provided with solution level regulators. EFFECT: improved design. 2 cl, 1 dwg

Description

 The invention relates to heat engineering and can be used in alumina production for evaporation of an aluminate solution.

Known evaporation plant containing vertical evaporators of different pressures with mortar chambers and separators, pumps with discharge pipelines, connecting pipelines and condenser [1]
The disadvantage of this device is not high enough efficiency.

 The purpose of the proposed technical solution is to increase the efficiency of its work.

 This goal is achieved by the fact that the discharge pipe of the pump of the apparatus with lower pressure is connected by a pipeline to the separator or solution chamber of the apparatus with high pressure. It is advisable to equip the apparatus with lower pressure with a solution level regulator located on the pipeline, by means of which the discharge pipeline of this apparatus is connected to the separator or solution chamber of the apparatus with high pressure.

 The drawing shows a schematic diagram of the proposed evaporator, operating according to the scheme 3-4-1-2.

 The installation consists of evaporators 1,2,3,4 (increasing positions along the direction of steam) with discharge pipelines 5,6,7,8, condenser 9, pumps 10,11,12,13, pipelines 14,15,16, and steam lines. The lower part of each of the apparatuses 1,2,3,4 consists of a separator 17 and a mortar chamber 18 (only the separator 17 of apparatus 2 and the mortar chamber 18 of apparatus 1 are indicated in the drawing). In addition, the apparatuses 2 and 4 of the installation are equipped with level controls installed on pipelines 6.8 and consisting of a working body 19 connected by a rod 20 to the float 21. The regulators can be of known design.

 Installation works as follows. The initial solution is fed into the apparatus 3, passes through heating pipes (in which inserts are installed to create a film) and enters through the separator into the solution chamber, from which part of it enters through the pipeline 16 through the pressure difference (at least 0.4 atm) into the apparatus 4. The greater part of the flow enters by means of a pump 12 through a pipeline 7, again into the upper solution chamber of the apparatus 3. In the separator of apparatus 4, the solution partially self-evaporates and falls into the solution chamber, from which, depending on the level of the solution, it flows through a pipe water 15 into the apparatus 2 or is pumped 13 through the pipeline 8 into the upper solution chamber of the apparatus 4. At a high level of the solution, the float 21 rises and the working element 19 closes the pipeline 15. In the housing 2, the solution coming from the housing 4 is sucked in by the pump 11 and through the pipeline 6 enters the upper solution chamber, and from there into the heating pipes, in which inserts are installed that form the falling film of the solution. Intensive evaporation of the solution takes place, which in the separator 17 is separated from the steam. The latter is discharged into the apparatus 3, and the solution should be circulated if its level in the separator 17 is low (while the pipeline 14 is closed), or partially pumped into the apparatus 1 if the level of the solution is high. The final evaporated solution leaves the apparatus 1. Juice vapor moves from the apparatus to the apparatus due to the pressure drop (from 1 to 4).

 It should be said that in all devices the solution is constantly circulating through pipelines 5, 6, 7, 8 to a greater or lesser extent.

 Thus, the use of solution level controllers in an evaporation plant composed of highly efficient devices operating with forced circulation with the formation of a falling film of solution in heating pipes makes it possible to use circulation pumps to transport the solution from the device with lower pressure to the device with high pressure. As a result, there is no need for transport pumps.

Claims (2)

 1. Evaporative installation containing vertical evaporators of different pressures with solution chambers and separators, pumps with discharge pipelines, connecting pipelines and a condenser, characterized in that the discharge pipeline of the pump of the apparatus with lower pressure is connected by a pipeline to the separator or solution chamber of the apparatus with high pressure.  2. Installation according to claim 1, characterized in that the apparatus with a lower pressure is equipped with a solution level regulator located on the pipeline, through which the discharge pipe of this apparatus is connected to a separator or solution chamber of the apparatus with high pressure.