SU1019070A1 - Arrangement for pumping a cryogenic fluid - Google Patents

Abstract

A DEVICE FOR TRANSFERING CRYOGENIC Liquids, a coaxial reservoir of cryogenic fluid, is connected to a piston pump 1 with a cooling coil with a piston pump 1, which is connected by an oxygen supply pipe with a capacitance, and has a supply of cryogenic fluid, which is connected with an oxygen source with cryogenic fluid and a heat pump, which is connected with an oxygen source with cryogenic fluid and a coolant. . so that, with a chain of reducing losses of risen vitality, the device is equipped with {fospepem, installed by jia Irpy– a large bird of a fiogenic skin, and a surface heat exchanger, (lao-firing V. a cooling jacket, Id piping suction. with about 1 rtt

Description

The invention relates to cryogenic technology, more precisely, to pumping units of cryogenic systems, and can be used in installations for filling containers with cryogenic liquids. ^:

A device for pumping cryogenic liquid is known. it contains a piston pump with a heat-insulating (vacuum) jacket and a suction line for a cryogenic gum from a C13 bone. ''

The most similar to a device for pumping kriogennoy'zhitskosti, comprising a vessel for a cryogenic liquid, a suction conduit connected with J piston pump with cooling - jacketed conduit which communicates with cryogenic liquid input capacitance f2 \) The disadvantage of this device is the need to maintain and "- ² redun- dant the pressure in the isothermal tank is 1.5-2: 6 kg / cm ^ in order to ensure subcooling of the suction liquid, as well as the liquid directed to the cooling jacket, After emptying the vessel ApoB phase (which determines the pressure excessive suction pressure) vented to the atmosphere. Product losses in this case are usually not less than 2-3%. thirty

The aim of the invention is to reduce losses, cryogenic gum.

This goal is achieved in that the device for pumping a cryogenic liquid containing a tank for 35 cryogenic liquids connected by a suction pipe to a piston pump with a cooling jacket, which is connected by a cryogenic liquid pipe inlet pipe with a tank! a cryogenic liquid inlet manifold, and a surface heat exchanger located in a cooling jacket on the suction pipe. ' ^λ 45

In the drawing, a diagram of the proposed device is presented.

a pipe 8 for introducing a cryogenic liquid from the same isothermal tank 7 into the jacket 4 and a pipe 9 for returning leaks to the isothermal tank 7 on which an ejector 10 is mounted, connected by a pipe 11 to the jacket 4. A choke 12 is installed on the pipe 8, the pipe 6 is equipped with a surface heat exchanger 13 located in shirt 4.

The device operates as follows.

Cryogenic liquid from the isothermal tank 7 through the heat exchanger 13 and the suction valve 2 enters the cylinder 1, and through the “pipe 8 through the throttle 12 - the cooling planer * 4. During the discharge, the leak is discharged through the pipe 9, and the cryogenic liquid from. shirts 4 - through the pipe 11, and then through the ejector 10 through the pipe 9 together with a leak into the insulated tank 7.

Since the cryogenic liquid from the tank 7 enters the jacket 4 through the throttle 12, a reduced liquid pressure is created, which is determined by the cross section of the throttle 12, and the liquid in the jacket ₍ boils at a temperature lower than the temperature of the liquid, pepper in the pipe 8 with the throttle 12 and isothermal tank 7. Therefore, the liquid entering through the pipeline 6 to the heat exchanger 13 is supercooled: in it.

This principle of subcooling - due to the throttling of the liquid sent to the jacket and due to the heat exchange of the liquid sucked into the pump cylinder with the liquid boiling in the planer *, it is possible to refuse to obtain ‘subcooling by increasing the overpressure in the tank. This leads to a decrease in the loss of the cryogenic product when venting overpressure vapors from the tank. These losses are approximately halved.

Reduction, e.g., loss kio- _f breed 1-1.5% will provide economic effect on each unit capacity of 6 tons using pressure pumps High luminance - 750 rubles.

“Per year (as approximately 60 kg of oxygen per day will be saved).

The device contains a piston pump, including a cylinder 1 with a suction 2 and discharge 3 valves, placed in a cooling jacket 4, and a plunger 5, as well as a suction pipe 6 of a cryogenic liquid from an isothermal tank 7,

VNIIIPI Order 3656/25

Draw 485

Subscription

Branch of PPP ’Patent *, Uzhhorod, st. Project, 4

Claims (1)

DEVICE FOR TRANSFER OF CRYOGENIC LIQUID PUMPING, containing a cryogenic liquid tank connected by a suction pipe to a piston pump with a cooling jacket, which is connected by a cryogenic liquid inlet pipe) to a tank, characterized in that, in order to reduce the loss of cryogenic liquid, the device is provided a throttle installed on the cryogenic liquid inlet pipe and a surface heat exchanger located at. cooling jacket, on the suction pipe.