RU2764339C2 - Autonomous plant for gasification of liquid cryoproducts - Google Patents

Abstract

FIELD: cryogenic technology.

SUBSTANCE: invention relates to cryogenic technology; it can be used in power engineering and other industries in the regasification of liquid cryoproducts. An autonomous plant for gasification of liquid cryoproducts includes an expander with a pump, the first and the second atmospheric evaporators and a heater. The plant is equipped with a storage tank with a cooling system and a cryoproduct supply line, including the first pump supplying cryoproduct from the tank to the first atmospheric evaporator, expander and separator, which is connected to the cooling system by the liquid cryoproduct supply line, on which the second pump is located. The cooling system is connected to a line for outputting separation gas from the separator, on which the second evaporator and a compressor are installed as a heater. The expander is kinematically or electrically connected to pumps.

EFFECT: exclusion of electricity consumption from the outside.

1 cl, 1 dwg

Description

The invention relates to cryogenic engineering and can be used in power engineering and other industries for regasification of liquid cryoproducts.

A known system for storing and supplying fuel in the form of liquefied natural gas (LNG fuel) for vehicles running on natural gas [RU 2208747, publ. 07/20/2003, IPC F25B 19/00, F25J 1/00, F17C 9/02, F17C 11/00, B65D 90/22, С22С 38/08], including fuel storage tank, evaporator (heat exchanger), fuel cylinder with an adsorbent with a regeneration system.

The disadvantage of the known system is the limited storage period of LNG when the vehicle engine is not running due to the low gas capacity of the fuel cylinder with the adsorbent, as well as the need to supply heat from the running vehicle engine.

Closest to the proposed invention is the installation of regasification of a liquid cryoproduct with the generation of electricity [RU 151882, publ. 04/20/2015, IPC F17C 7/04], including an expander with a pump and an electric generator, the first and second atmospheric evaporators (evaporators), an electric heater (heater) powered by an electric generator and installed after the second atmospheric evaporator.

The disadvantage of this installation is the consumption of electricity from outside during the winter period of operation due to a lack of electricity generated by an electric generator to heat the gas to a positive temperature.

The objective of the invention is to exclude the consumption of electricity from outside.

The technical result is to exclude the consumption of electricity from outside by installing a compressor connected to the expander as a heater. The heating of the gas in this case occurs due to the heat released during compression.

The specified technical result is achieved by the fact that in the proposed installation, which includes an expander with a pump, the first and second evaporators and a heater, the feature is that the installation is equipped with a storage tank with a cooling system and a cryoproduct supply line with the first pump, first evaporator, expander and separator , which is connected to the liquid cryoproduct supply line, on which the second pump is located, with the cooling system connected to the separation gas outlet line from the separator, on which the second evaporator and, as a heater, a compressor connected to the expander are installed.

The storage tank can be equipped with an adsorption unit, which reduces gas losses when the plant is not in operation.

A positive displacement hydraulic machine can be installed as an expander. The evaporator can be made in the form of an atmospheric evaporator. The expander may be kinematically connected to the compressor and/or pump(s), or may be made in the form of an expander-generator supplying electric power to the drives of the pump(s) and the compressor. As other elements of the installation, any devices of the appropriate purpose, known from the prior art, can be placed.

Installing a compressor connected to the expander as a heater makes it possible to heat the gas to a positive temperature due to the heat released when the gas is compressed to the supply pressure to the consumer, which eliminates the consumption of electricity from outside even in winter. Installing a separator connected to the cooling system of the storage tank by a liquid cryoproduct supply line allows cooling the storage tank during operation of the unit.

The plant includes storage tank 1, first 2 and second 3 pumps, first 4 and second 5 evaporators, expander 6, separator 7 and compressor 8. The dotted line shows the adsorption unit 9.

During operation of the unit, the cryoproduct supplied by pump 2 from tank 1 through line 10 is heated in evaporator 4, the resulting gas is reduced in expander 6, separated in separator 7 into a liquid cryoproduct, which is fed by pump 3 through line 11 into the cooling system of tank 1 as a refrigerant , and the separation gas, which is mixed with the heated liquid cryoproduct coming from the cooling system, is heated in the evaporator 5, compressed by the compressor 8 to the supply pressure to the consumer and removed through the line 12. line 13 for absorption by the adsorbent. When the plant is put into operation, the desorbed gas is returned through line 14 to line 12 after expander 8. The dash-dot line shows the connection of the expander with pumps and a compressor.

Thus, the proposed installation eliminates the consumption of electricity from outside even in the winter season and can be used in industry.

Claims (1)

Autonomous installation for gasification of liquid cryoproducts, including an expander with a pump, first and second atmospheric evaporators and a heater, characterized in that the installation is equipped with a storage tank with a cooling system and a cryoproduct supply line, including a first pump that supplies cryoproduct from the tank to the first atmospheric evaporator, expander and a separator, which is connected to the cooling system by a liquid cryoproduct supply line, on which the second pump is located, while the cooling system is connected to the separation gas outlet line from the separator, on which the second evaporator and compressor are installed as a heater, and the expander is kinematically connected to the pumps or electrically.

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