SU1079974A1 - Air turbine refrigerating plant - Google Patents

Abstract

1. AIR TURBOHOLO-DILED INSTALLATION, containing in series a fan, a regenerator, a refrigerating chamber, a turbo-detonator. The second regenerator and compressor placed on the same shaft with the turbo-expander, characterized in that in order to expand the range of control of the cooling capacity, the installation further comprises a second turbo-expander placed on the same shaft with the fan and connected between the first regenerator and the refrigerating chamber , after which the heat exchanger and the second refrigerating chamber are additionally installed. Installation according to claim 1, characterized in that the first refrigerating chamber is connected to the second regenerator via a bypass line. Hjc: (L

Description

The invention relates to refrigeration, and more specifically to aerial turbo-refrigeration installations.

Known air turbo-refrigerating plants, containing a regenerator, an expansion turbine, a cooling chamber located between them, a compressor, two valve boxes and a piping system 1.

Their disadvantage is the impossibility of deep adjustment of the cooling capacity without deterioration of the efficiency of installations.

Closest to the present invention is an air-powered turbo-refrigeration unit, containing a sequentially connected fan, a regenerator, a refrigerating chamber, a turboexpander, a second regenerator, and a compressor placed on the same shaft as the turboexpander 2.

The disadvantage of this installation is its low efficiency due to the impossibility of extending the range of control of cooling capacity.

The purpose of the invention is to expand the range of control of cooling capacity.

The goal is achieved by the fact that the air turbocho, the installation that contains a fan, a regenerator, a refrigerating chamber, a turbo expander, a second regenerator and a compressor placed on the same shaft with the turbo expander, sequentially connected, additionally contains a second turbo expander placed on the same shaft with the fan and connected between the first regenerator and the refrigerating chamber, after which the heat exchanger and the second refrigerating unit are installed on the chamber.

The first refrigerating chamber is connected to the second regenerator via a bypass line.

FIG. 1 shows a diagram of this installation; in fig. 2 - thermodynamic cycle of this installation.

The installation includes a fan 1 connected in series, a water heat exchanger 2, a regenerator 3, a cooling chamber 4, a turbo expander 5, a second regenerator 6, a compressor 7 placed on the same shaft with the turbo expander 5, and a second turbo expander 8 placed on. one shaft with the toro m valve 1 and connected between the first regenerator 3 and the refrigerating chamber 4, an additional heat exchanger 9 and the second refrigerating chamber 10. The first refrigerating chamber 4 is connected to the second regenerator 6 via a bypass line 11.

The installation works as follows.

At atmospheric pressure, air enters fan 1 (process 1-2 in Fig. 2), is then cooled in a water heat exchanger 2 (process 2-3), enters periodically switching regenerator 3, where it cools with moisture loss (process 3-4 ), expands in the expander 8 (process 4-5) to a pressure slightly higher than atmospheric and enters the first refrigeration chamber 4, where it takes heat from the cooled object (process 5-6), then cools in an additional heat exchanger 9 (process 6-7 ) and sent at atmospheric pressure to the second chill The chamber 10, where, taking heat from the cooled object, is heated (process 7-8), then enters the turbo-expander 5 (process 8-9), and after expansion enters first into the additional heat exchanger 9 (process 9-10) and then in the second regenerator 6, where it is also heated with moisture absorption (process 10-11), and then compressed in compressor 7 (process 11 -12) and removed to the atmosphere. In addition, it is provided bypassing air from the refrigerating chamber 4 to the inlet of the second regenerator 6.

The effect of the use of the invention is to increase the efficiency of the installation by 25-307o. Compared with the commercially available air turbo-refrigerating machine MTXM1-25 by reducing the compression work and increasing the expansion work. In addition, the installation allows the range of control of cooling capacity to be extended.

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Claims (2)

1. AIR TURBO-COOLING UNIT, containing a series-connected fan, re-generator, refrigerator, turbo-expander. a second regenerator and compressor located on the same shaft with a turboexpander, characterized in that, in order to expand the range of regulation of cooling capacity, the installation further comprises a second turboexpander located on one shaft with a fan and connected between the first regenerator and the cooling chamber, after which a heat exchanger is additionally installed and a second refrigerator. 2. Installation according to π. 1, characterized in that the first cooling chamber is connected to the second regenerator via a bypass line. fie / SU., „1079974>