SU1537983A1 - Refrigeration unit - Google Patents

Abstract

The invention improves energy efficiency. To do this, after the filter partition 7 of the accumulator 6 of the gas-hydrate slurry, a tank 8 is connected, connected through regulating valves 9, 10 to the crystallizer 4 and through the second pump 12 to the chiller 1, which is additionally connected to the accumulator 6 of the hydrate slurry. The tank 8 receives a mixture of brine and a liquid agent, from where the main part of the brine is recirculated by the pump 12 to the cooler 1 for cooling the product, and the other part of the brine and the liquid agent is in a strictly metered ratio to ensure a constant reflux ratio to the crystallizer 4, where hydrates are formed . 1 il.

Description

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The invention relates to refrigeration engineering and can be used to cool a target product such as air, milk, beer and other products with their uneven consumption.

The purpose of the invention is to increase energy efficiency.

The drawing shows a diagram of the refrigeration unit.

The installation consists of chiller 1, chiller 2, evaporator 3 chillers, crystallizer

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Which agent and brine in a strictly metered ratio to ensure a constant reflux ratio are sent to the crystallizer C, where hydrates are formed. In the crystallizer center C, the mixture of the agent and the brine) is cooled by means of the evaporator 3 of the cooling machine 2, as a result of which hydrates are formed. The gas hydrate mixture is pumped into pump 5 by means of pump 5, where brine and a liquid hydrating former are filtered from it, into a reservoir; The concentration of gas hydrate crystals from the mixture increased

gas hydrates, pump 5, accumulates,

When the spirit, nap gas g, consume the pumping concentrate 1 in the accumulate

body 6 gas hydrate slurry, equipped with a filter partition J of the tank 8, connected through control valves 9 and 10 with the mold k, valve 11 and the additional pump 12 of the cooler 1, which is connected by pipe 13 to the drive 6.

The installation works as follows.

The cooled product, for example, the temperate air, is sent to cooler 1, in which it is cooled with cold brine to the required dew point, and then output to the consumer, after having previously separated the moisture that has fallen from it. The heated brine through the pipeline 13 is fed to the storage L of the hydrate suspension, where, in contact with the hydrates, it is cooled as a result

melting the hydrates to form brine and liquid agent. The mixture of two liquids flows into the lower part of the accumulator behind the filter septum 7, in which the two immiscible liquids are separated from each other. The main part of the brine additional pump 12 is recycled to the cooler 1 for cooling the air entering the unit, and some

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When there is no consumption of compressed air, for example, in the third night shift, gas hydrates only form and do not consume, while the pipeline connecting tank 8 with the additional pump 12 is blocked by valve 11, and the concentration of gas hydrates crystals in storage 6 is increased.

Claims (1)

Invention Formula A refrigeration unit containing a cooler and evaporator of the refrigerating machine, a gas hydrate mold located in the evaporator, and a hydrate suspension accumulator with a filter septum connected through a pump to a gas hydrate crystallizer, which, in order to increase energy efficiency, the plant further comprises a tank connected to the storage of hydrated suspension after the filtering partition, the second pump and two control valves, through which the tank corresponds it is connected to the cooler and to the crystallizer, the cooler being additionally connected to the storage of the hydrate slurry.