SU1469240A1 - Method of storing liquified gases - Google Patents

Abstract

The invention relates to refrigeration, in particular, to storage in an isothermal tank of liquefied gas. The purpose of the invention is to increase the economics of storage by eliminating the use of liquefied gas B as a source of cold. The method of storing liquefied gas consists in maintaining a low temperature in an isothermal tank with a liquefied gas and involves circulating the liquefied gas in a closed loop, with increasing pressure, cooling and throttling into the steam pad of the tank, and the pressure will increase cyclically, some of the liquefied gas will evaporate by supplying heat from the surrounding medium to produce a vapor phase in the closed vessel included in the contour above the liquefied gas mirror, while in the half-cycle of pressure increase the vapor is compressed Phase II of the piston of the liquefied gas from the tap slsati heat to the environment, and in the half-cycle of pressure drop effected expanding vapor that makes cooling of the liquefied gas. The novelty in the process is that the cooling of liquefied gas is carried out in a closed vessel, partially filled with the vapor phase, due to the implementation in this vessel of the refrigeration cycle, the working substance of which is the vapor phase. 1 il. SS sen

Description

one

The invention relates to refrigeration engineering, in particular to storage methods in liquefied gas tanks.

The purpose of the invention. - increased storage efficiency by eliminating the use of liquefied gas as a source of cold.

The drawing shows a diagram of the device that implements the proposed method.

The method is carried out following

in a way.

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Cooling down; Generated gas is produced in a closed vessel, partially filled with the vapor phase due to the implementation in the vessel of the refrigeration cycle, the working substance of which is the vapor phase.

The device contains interconnected isothermal capacitance 1 with a liquefied gas, a piston pump 2, a closed vessel (damper) Zi control valve 4.

In order to supply liquefied gas to a consumer, the scheme additionally contains shut-off valves 5 and 6, a metering device 7 with a capacity-consumer 8.

If it is necessary to provide additional cooling, an external cold source can be included in the circuit, for example, a refrigeration unit 9, the evaporator of which is placed in a steam cushion of an isothermal vessel.

The operation is as follows. 15

When storing liquefied gas due to heat influxes from the environment, pressure and temperature rise in the isothermal tank 1. To maintain these parameters at a given level, open valve 5, close valve 6 and turn on the piston vessel (damper) 3 and compress the vapor phase partially filling it with a liquefied gas piston, which leads to heating of the vapor phase to a temperature exceeding the ambient temperature. As a result of the heat exchange of the heated vapor through the wall of the damper with the environment, the temperature of the vapor decreases.

After completion of the pump injection cycle, the steam in the damper expands, its pressure and temperature decrease, and the liquefied gas in the damper boils, followed by cooling the latter.

Under the pressure of the vapor phase, the liquefied gas is displaced from the damper and is choked in valve 4, with the result that its temperature is further reduced.

After throttling, the liquefied gas enters the steam pad of the isothermal tank 1, due to its low temperature, the condensation of steam in this tank, which leads to a decrease in pressure and temperature in it.

Claims (1)

Formula of gain The method of storing liquefied gas in an isothermal tank, including the circulation of liquefied gas in a closed circuit with pressure reduction, cooling and throttling into a steam tank container, characterized in that, in order to increase efficiency, the pressure is increased cyclically, a part of the liquefied gas is evaporated by supplying heat from the environment with creeping into the closed vessel of the vapor phase above the liquefied gas mirror, while in the half-cycle of pressure growth the vapor phase is compressed by a piston from gas with the removal of heat of compression into the environment, and in a half-cycle of pressure drop, the vapor phase is expanded, causing cooling of the liquefied gas. Sr 7 6 8