RU89660U1 - HELIUM STORAGE - Google Patents

Abstract

The utility model relates to the storage of helium and other gases. Helium storage includes a helium storage tank connected to a helium injection and recovery system. The latter is made in the form of a pipeline (9) with a protective coating of the inner and outer surfaces and automatic shut-off valves (7, 10, 8) installed at the ends and along the length of the mentioned pipeline (9). This provides increased reliability and durability of the helium storage, as well as reduced helium losses in emergency situations and reduced the time and cost of creating and operating the proposed storage. 1 ill.

Description

The utility model relates to the field of the gas industry, namely to the storage of helium and other gases.

Closest to the claimed technical solution is an underground gas storage containing helium storage tanks mounted in mine tunnels, made in the form of flexible plug-in tanks (hoses) made of helium-impermeable polymeric materials and connected by pipelines through a vertical barrel with a surface helium injection and extraction system elastic storage tanks. (GB 2435505 A, MKI F17C 1/00 (2006.01), B65D 88/00 (2006.01), B65D 88/76 (2006.01), B65G 5/00 (2006.01), published on 08.29.2007)

The disadvantages of this technical solution are:

- the complexity, large volume and high cost of underground work on the preparation and sealing of the walls of tunnels, as well as on the adaptation of mine workings for the installation of elastic tanks for storing helium;

- the high cost of elastic tanks for storing helium due to the large overall dimensions, reaching a diameter of up to 15 m and a length of up to one kilometer or more;

- limited durability of helium storage tanks, less than 20 years, if necessary 50 years or more;

- Significant losses of stored helium in case of violations of the tightness of tanks of such a large volume;

- low pressure of helium in tanks (up to 3.6 MPa) due to insufficient strength.

The technical result, which the claimed utility model is aimed at, is to increase the reliability and durability of the helium storage, as well as to reduce helium losses in emergency situations and reduce the time and cost of creating and operating the proposed storage.

The above technical result is achieved due to the fact that in a helium storage facility including a helium storage tank connected to a helium injection and extraction system from this tank, according to a utility model, the helium storage tank is made in the form of a metal pipe with a protective coating of the inner and outer surfaces and automatic shut-off valves installed at the ends and along the length of the metal pipe.

The essence of the utility model is illustrated by a drawing, which shows a schematic diagram of the construction of storage facilities of the proposed type, including a gas main 1, which receives helium-containing natural gas, gas pumping units 2 installed on the gas main 1, gas pipelines 3, through which from the main pipeline 1 using gas-pumping units 2 helium-containing natural gas enters the process units 4 for separating helium from helium-containing natural gas, taps 5, black for which purified natural gas from process plants enters gas pipelines 6, automatic shut-off valves 7 and 8, through which helium purified from natural gas enters metal pipelines 9, which are containers for storing helium, and automatic shut-off valves 10, through which purified helium from metal pipelines 9 through helium pipelines 11 are transported to the consumer, while the automatic shut-off valves 7, 10 are located at the ends of the metal pipelines 9, and the automatic shut-off valves 8 - along the length e of metal pipelines 9. In addition, the diagram depicts cranes 12 through which, if metal pipelines 9 are filled with helium, helium purified from natural gas is pumped into helium pipelines 13, a gas processing plant (GPP) 14, where helium is extracted from helium-containing natural gas, and also a pipeline 15 through which purified natural gas from the gas processing plant enters the consumer and pipeline 16, through which helium purified from the gas enters the consumer from the gas processing plant.

The described schematic diagram of the construction of a helium storage facility works as follows.

Helium-containing natural gas flows from the field (not shown in the drawing) to the main gas pipeline 1, through which it is transported by gas pumping units 2 to the final consumer, for example, to the gas processing plant 14 (GPP), which is usually located at a considerable distance from the field. Along the route of such long-distance transportation of helium-containing natural gas, it becomes necessary to supply gas to nearby settlements and industrial enterprises with marketable natural gas purified from helium and other non-combustible gases. In this regard, helium-containing gas is supplied through gas branch pipes 3 to technological units 4 for the extraction and injection of helium through open automatic shut-off valves 7 and 8 into helium storage tanks made in the form of metal pipelines 9 with a protective coating of the inner and outer surfaces at the outlet from which through open automatic shut-off valves 10 helium through helium wires 11 is sent to the consumer. Purified commercial natural gas is supplied through open taps 5 through pipelines 6 to the consumer. If necessary, for example, in the case when the storage facility is filled with helium, helium is returned through open taps 12 and helium wires 13 to the main gas pipeline 1, where it is again mixed with helium-containing natural gas. The helium-containing natural gas remaining in the main gas pipeline after analysis by intermediate consumers is transported to the GPP as the final delivery point, where it is cleaned of helium, after which the helium and commercial purified gas are delivered to consumers in liquefied and / or compressed state through separate pipelines 16 and 15 .

The proposed storage design allows, if necessary, to store gases of different composition in a pipeline tank at higher pressures up to 20.0 MPa instead of 3.6 MPa when using flexible tanks, and, therefore, increase the volume of stored gases. The presence of protective coatings and automatic shut-off valves in the storage design virtually eliminates helium leakage during operation and minimizes helium losses to a minimum in emergency situations.

The proposed storage design has several advantages in comparison with the prototype:

- the durability of the storage increases as a result of the use of metal pipes instead of elastic polymer sleeves by 2 or more times and becomes comparable with the life of the gas field;

- the specific gas capacity in the storage increases as a result of an increase in the pressure of helium in the pipeline tank by 6 or more times;

- the time for creating a storage facility is reduced due to the use of proven mechanized technology for the construction of large diameter gas pipelines and a considerable length (up to 5 thousand km) of high pressure (up to 25.0 MPa);

- reduced capital costs for the construction of a pipeline-type storage facility, since the pipeline for storing helium is laid in the same transport corridor with the gas pipeline;

- Helium losses are reduced especially during long-term storage and in the event of accidents due to the protective coating of the pipeline and the use of automatic shut-off shut-off valves.

The implementation of the proposed type of storage will allow to begin development of natural helium-containing gas deposits in Eastern Siberia and the Far East of Russia, to provide settlements and industrial enterprises with purified commercial natural gas, as well as to preserve the most valuable strategic product, which is helium.

Claims (1)

Helium storage, including a helium storage tank connected to a helium injection and withdrawal system from this tank, characterized in that the helium storage tank is made in the form of a metal pipe with a protective coating of the inner and outer surfaces and automatic shut-off valves installed at the ends and the length of the pipeline.