SU992893A1 - Unit for discharging liquefied gas from low-pressure vessel - Google Patents

Description

(54) INSTALLATION FOR LIQUEFIED GAS FROM LOW PRESSURE VESSEL

one

The invention relates to cryogenic engineering, to means of producing liquefied gases from non-pressure tanks.

And there is a natural installation for the low pressure vessel shchein gas installation containing a pump and an evaporator gas that provides an increase in pressure in the vessel due to the evaporation of evaporated product 1 into the steam space.

Achieved at this reduction of the cavitation vskipani produced by the UO Shost at the pump slightly. .

Closest to the present invention is an installation for introducing liquefied gas from a low-pressure vessel, containing a vessel, a evaporator-subcooler and a pump connected along the product, a liquefied gas evaporator-cooler and a vent from the formed vapor; supercharged gas {2.

The disadvantage of the installation is tOj that the supply of gases and the gas supply to the pipeline of the required amount of gas.

This requires a separate evaporator of the liquid product, as well as the impossibility of using the evaporator-re-cooler through the gas vapor product evacuation pipeline to improve the reliability of the pump.

The purpose of the invention is to increase the stability of the pump.

The goal is achieved by the fact that the installation for the release of liquefied gas

10 from a low-pressure vessel containing a vessel, an aftercooler-subcooler and a pump connected in series along the product; and pipelines supplying and discharging liquefied gas to the evaporator-subcooler

The 15 formed vapors, the Iadtsuva gas supply pipeline, are equipped with a compressor, connected to the suction pipe to the vapor removal pipe, and a 2Q discharge pipe to the pipe to supply pressurized gases.

The drawing shows the installation diagram.

The installation includes a vessel 1, an evaporator subcooler 2, a pump 3, Schussel 4, pipelines for supplying 5 liquefied gas to 399 evaporator-supercooler and draining 6 of the formed vapor from it, compressor 7 and pipes 8 for pressurizing the vessel. The installation works as follows. Liquefied gas from vessel 1 goes through evaporator-subcooler 2, where it is supercooled when heat exchanging with bale gas at lower pressures than pressure and saturation of product vapors in a vessel with liquefied gas, then the over cooled product is compressed in pump 3 without cavitation and its associated negative effects. and is given to the consumer. The liquefied gas enters the evaporator part of the evaporator — re-cooler 2 flows from vessel 1 through choke 4 and pipe 5, and after evaporation, its vapors are discharged through pipe 6 by compressor 7 to pipeline 8. As a result, the liquid product in the vessel acquires an additional anti-cavitation reserve relative to saturation temperature. The positive effect of the application of the installation is due to the fact that evaporated in the evaporator-subcooler p | uduct

used as gas boost. --x

Claims (2)

25 fig. 7e (prototype). fff J Claim the invention for disposing liquefied gas from a low pressure vessel, containing a vessel connected in series along the product, an evaporator-subcooler and a pump, pipelines of a liquefied gas to the evaporator-subcooler, and evacuation of formed vapors from it; so that, in order to maintain the stability of the pump, it is equipped with a compressor connected to the suction pipe to the vapor removal pipeline and a yagietan pipe to the gas supply pipe boost. Sources of information taken into account in the examination 1.Ivantsov OM. Storage of liquefied hydrocarbon gases. M. Nedra, 1973, p. 204. 2. Installations for the gasification of cryogenic liquids. Overview information. Ser. HM-6, M., TSINTIKHIMNEFTEMASH, 1975, p. 29, fff ff UA