RU2770352C2 - Cryogenic pump - Google Patents

Abstract

FIELD: heating equipment.

SUBSTANCE: invention relates to heat engineering, namely to cryogenic pumps of submersible type, and can be used in gasifiers and air separation plants. Cryogenic pump for pumping cryogenic liquids comprises a housing in which a piston with a rod, inlet and outlet valves are installed, located on the housing end, inlet filter, which cavity opens into housing cavity through extension and inlet valve, outlet pipeline with V-shaped section. Cavity of pipeline opens into housing cavity through outlet valve. Pump housing together with inlet pipeline and part of outlet pipeline to V-shaped section is arranged in cylindrical casing. Casing is made with possibility of installation in the tank with cryogenic liquid, and its internal cavity is connected through the shutoff valve to the ambient medium. Inlet filter and the V-shaped section of the outlet pipeline are located on the end of the casing immersed into the cryogenic liquid.

EFFECT: reduced volume of non-pumped residue due to local increase of liquefied gas level around extender and in working cavity of cylinder.

1 cl, 1 dwg

Description

The invention relates to the field of heat engineering, namely to submersible cryogenic pumps, and can be used in gasifiers and air separation plants.

Known pump for pumping cryogenic liquid from a reservoir of liquefied gases, containing a housing in which a piston with a rod, inlet and outlet valves located at the end of the housing, an inlet filter, the cavity of which opens into the cavity of the housing through an extension and an inlet valve, an exhaust pipeline with V -shaped section, while the cavity of the mentioned pipeline opens into the cavity of the housing through the exhaust valve. The pump is installed on the neck of the liquefied gas tank, while the cylinder group is immersed directly into the tank. When the pump is running, the liquefied gas is sucked in, the pressure of the liquefied gas is increased and it is injected into the pipeline. Suction occurs during the return stroke of the piston, while, due to the discharge created by the piston in the working cavity of the cylinder, liquefied gas through the filter, extension cord, suction valve enters the working cavity of the cylinder, where it is compressed during translational movement by the piston and through the injection valve through the pipeline enters product line. The cylinder is mounted on the body with flanges. (http://oookislorodmash.ru/oborudovanie/nsg-nasosyi-szhizhennyih-gazov/ Pump 2NSG, manufactured by Kislorodmash LLC. Operation manual KK 2367.00.000-01 RE - prototype).

The main disadvantage of this pump is the large volume of non-pumpable liquefied gas residue in the tank associated with the boiling of the liquid in the extension and in the working cavity of the cylinder due to the heat influx from the external components of the pump through the massive elements of the cylinder group. During normal operation of the pump, heat from these elements is removed by the liquefied gas surrounding them, however, at a low level of this liquid, the outflow of heat becomes insufficient.

The objective of the invention is to reduce the volume of non-pumpable residue due to a local increase in the level of liquefied gas around the extension and in the working cavity of the cylinder.

The solution to this problem is achieved by the fact that in the proposed cryogenic pump for pumping cryogenic liquids, containing a housing in which a piston with a rod, inlet and outlet valves located at the end of the housing, an inlet filter, the cavity of which opens into the cavity of the housing through an extension and an inlet valve , an exhaust pipeline with a V-shaped section, while the cavity of the said pipeline opens into the cavity of the housing through the exhaust valve, according to the invention, the pump housing, together with the inlet pipeline and part of the exhaust pipeline up to the V-shaped section, is placed in a cylindrical casing, and the said casing is made with the possibility of installation in a tank with a cryogenic liquid, and its internal cavity is connected through a shut-off valve with the environment, while the inlet filter and the V-shaped section of the outlet pipeline are located on the end face of the said casing immersed in the cryogenic liquid.

The essence of the invention is illustrated in Fig. 1, which shows a diagram of the pump.

A cryogenic pump for pumping cryogenic liquids (hereinafter referred to as the pump) contains a housing 1 in which a piston with a rod 2 is installed, inlet 3 and outlet 4 valves located at the end of the housing, an inlet filter 5, the cavity of which opens into the cavity of the housing through an extension 6 and an inlet valve 3, an outlet pipeline with a V-shaped section 9, while the cavity of the said pipeline opens into the cavity of the housing through the outlet valve 4. The pump casing 1, together with the inlet pipeline and part of the outlet pipeline 9 up to the V-shaped section, is placed in a cylindrical casing 7, moreover, the mentioned casing is made with the possibility of installation in a tank with a cryogenic liquid, and its internal cavity is connected through a shut-off valve 8 with the environment, while the inlet filter 5 and the V-shaped section of the outlet pipeline 9 are located on the end face of the said casing immersed in the cryogenic liquid.

The proposed pump works as follows. When the pump is running, the liquefied gas is sucked in, the pressure of the liquefied gas is increased and it is injected into the pipeline. Suction occurs during the period of the return stroke of the rod with piston 2, while due to the discharge created by the piston in the cavity of the body 1, liquefied gas through the inlet filter 5, extension 6, inlet valve 3 enters the cavity of the body 1, where it is compressed during translational movement by the piston and through the outlet valve 4 and outlet pipe 9 enter the product dispensing line. When the liquid level in the tank drops to a non-pumpable residue, the valve 8 connecting the casing 7 with the atmosphere opens and due to the excess pressure in the tank, due to the technology of the gasifier (pressure pressure 0.1-0.25 MPa) over the pressure inside the casing, equal to atmospheric pressure , the working fluid is squeezed into the cavity of the casing 7. The level of the working fluid in the casing 7 rises, due to which the extension cord 6 and the cavity of the casing 1 cool down, which prevents the liquefied gas from boiling in these elements. The end of cooling down is determined by the exit of liquefied gas through valve 8, after which the specified valve is closed, while the operating temperature in the pump will be maintained due to the constant flow of cryogenic product into the pump.

Such a change in the design of the pump allows you to bring the pump into operation when the liquid level in the tank is below the non-pumpable residue and, thereby, reduce the volume of the non-pumpable residue.

The use of the proposed technical solution will reduce the volume of non-pumpable residue due to a local increase in the level of liquefied gas around the extension and in the working cavity of the cylinder, and thereby increase the efficiency of the pump.

Claims (1)

A cryogenic pump for pumping cryogenic liquids, comprising a housing in which a piston with a rod is installed, inlet and outlet valves located at the end of the housing, an inlet filter, the cavity of which opens into the housing cavity through an extension and an inlet valve, an exhaust pipeline with a V-shaped section, at the same time, the cavity of said pipeline opens into the housing cavity through an exhaust valve, characterized in that the pump housing, together with the inlet pipeline and part of the exhaust pipeline up to the V-shaped section, is placed in a cylindrical casing, and the said casing is made with the possibility of installation in a tank with a cryogenic liquid, and its internal cavity is connected through a shut-off valve with the environment, while the inlet filter and the V-shaped section of the outlet pipeline are located on the end face of the said casing immersed in the cryogenic liquid.

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