SU1469259A1 - Method and apparatus for cool generating - Google Patents

Abstract

Invention m. used to obtain the cold of moderate tp. The purpose of the invention is to increase the efficiency of the installation. To the reactor 4 Gvdratov-pipeline removal of the liquid mixture is connected to the separator 6 of the liquid phase from the hydrates. A separator 8 of liquids is installed in the pipeline for discharging the liquid mixture. The separator 8 has a pipeline for discharging the organic liquid, which is connected to the inlet to the cooling battery 3. The output of the battery 3 is additionally connected to the reactor 4. The battery 3 m. it is made in the form of a tank with a coil 13, fitted in the upper part with a hood and a damper. Water is piped through the pipeline to the 4 hydrate reactor, and the liquid freon is fed to the bottom of the battery 3, where it is mixed with the cooling solution supplied via the pipeline from the cold generator. Due to heat leakages from the cooled medium pumped by its coil 13, the cooled solution is aggravated at a constant concentration and the liquid freon evaporates. 1 hp f-ly, 1 ill. (L

Description

The invention relates to refrigeration, and in particular to devices for producing cold at moderate temperatures.

The purpose of the invention is improving efficiency.

The drawing shows a diagram of the proposed installation.

The installation consists of a cold generator 1, a solution concentrator 2, a cooling battery 3, a hydrate reactor 4 with a built-in heat exchanger 5, a liquid phase separator 6 from hydrates, which is a tube-in-tube apparatus, the inner tube 7 of which has perforation with openings of 50- 100 mm, and the annulus is connected to a liquid separator 8, the upper part of which is connected by a pipe 9 with a reactor 4, and the lower part - by a pipe 10 with the lower part of the battery 3, pumps 11 and 12. The cooling battery 3 is a tank a bridge with a built-in coil 13 for cooling the consumer, the lower part of which is connected by a pipe 14 to a cold generator 1, the upper point is connected via a pipe eliminator 15 to a hydrate reactor 4 by a pipe 16, and the upper part is connected by a pipe 17 to a pump 12. The outlet from the cooling battery 3 has a nozzle with a valve 18, the concentrator 2 of the solution is equipped with a nozzle 19, and the reactor 4 of hydrates is equipped with a nozzle 20, and the battery 3 has a damper 21.

Installation works as follows.

As an example, work with the use of R-12 as a hydrate-forming organic liquid, and sodium chloride as a salt, is considered. Freon R-12 and water are mixed in a hydrate reactor 4 and water at a pressure of ~ 230 kPa and cooled to a temperature of about 281 K by pumping a coolant through a heat exchanger 5. As a result, a hydrate suspension is formed, which consists of water and hydrates, which is pumped through a separator 11 6, where hydrates are separated from water, into a cold generator 1, in which hydrates are mixed with a salt solution. When a salt solution with hydrates is mixed, the latter decompose at a temperature of ~ 265 K. The guide, due to vegetation, generalization, and void voids, absorbs liquid freon with heat absorption, as a result of which the solution solution decreases to water obtained by dissolving dilutes the solution whereby its concentration decreases and liquid freon is separated by a thief because of the difference in their density, it accumulates in the lower part of the torus 1 of cold and is removed moving countercurrently to hydrates through the inner tube 7 of separator 6, squeezing out of intercrystalline: hydrates in In the intertube of separator 6, water and liquid freon are guided by a fluid body 8, which is separated from the liquid freoy by the density difference. Water; The hydrate reactor 4 is recycled through pipeline 9, and the liquid fresn is fed through pipeline 10 to the lower part, where it is mixed with a cooled solution, and fed pipeline V from general cold. Due to the heat-prone-cooled medium, in separate water, the pumping effect is pumped out. The pairs of battery 3 through a droplet line 16 roar reactor 4 hydrates, and with a pump I dissolve with salt, at a concentration of 9

In the process of non-power operation, peise set Cap50 of the cooling battery 3 is supplied with the torus 1 to be removed from the coil 13, the cooled solution is heated at a constant concentration, and the liquid freon evaporates, thereby increasing the useful cooling cooling chipper 15, the solution is circulated through a pipe 12, which is fed to the concentrator, where mixing the flow through the pipe increases to the state the salt is consumed jerkily and brought through the hydrated state which is fed through the pipe 20. The excess solution resulting from the decomposition of hydrates and the solution salt, salt is removed through a nozzle with valve 18 leotboy 15 is necessary to prevent drops of brine from the cooling battery 3 from entering the hydrate reactor. In addition, it is advisable to provide a cooling battery with a damper 21, which can be used as a conventional partition separating the zone from which the brine is discharged from the bulk of the boiling liquid (a mixture of solution and rising gas bubbles with drops of organic liquid R that did not have time to evaporate R -12), and thus eliminating the ingress of liquid R-12 into the pipe 17 together with the solution.

Claims (2)

Claim 1. Installation for the production of cold, containing a cold generator with a separator of the liquid phase from hydrates, a solution concentrator, a cooling battery and a hydrate reactor, to which the said separator is connected by a pipe for removing the liquid mixture, which, in order to increase economy, it additionally contains a liquid separator installed in the liquid mixture discharge pipe having a liquid liquid drain pipe which is connected to an entrance to a cooling battery, the output of which is additionally connected to hydrate factor. 2. Installation according to claim 1, characterized in that the cooling battery is made in the form of a container with a coil, equipped with a drop eliminator and a damper in the upper part.