RU214532U1 - REDUCING ASSEMBLY FOR GAS SUPPLY TO CONSUMERS FROM MOBILE GAS REFUELERS - Google Patents

Abstract

The utility model relates to the field of gas supply, providing gas to consumers during scheduled and emergency work related to the interruption of the gas supply, in particular, it is intended for temporary supply of natural gas to the gas pipeline branch to the gas distribution station (GDS), inlet and outlet gas pipelines of the GDS and gas pipelines of systems gas supply from mobile gas tankers (PAGZ).

A reducing unit for gas supply to consumers from mobile gas tankers, including three ball valves at the inlet, one ball valve for gas discharge, a constant differential valve, an inlet manifold, two pressure gauges with shut-off devices at the inlet and outlet, a throttle valve on the pipeline of the main gas supply line, safety valve, outlet manifold, two pipelines of the main gas supply line, wherein each of the three pipelines of the main gas supply line contains two throttle valves, a pressure gauge, external thermal insulation, a winding from an electric heating cable connected to a temperature control sensor with the possibility of connecting to an electric power source.

The technical result from the application of the utility model is to simplify the application, increase the mobility, reliability and efficiency of the reducing unit for gas supply to consumers from mobile gas tankers.

Description

The utility model relates to the field of gas supply, providing gas to consumers during scheduled and emergency work related to the interruption of the gas supply, in particular, it is intended for temporary supply of natural gas to the gas pipeline branch to the gas distribution station (GDS), inlet and outlet gas pipelines of the GDS and gas pipelines of systems gas supply (SG) from mobile gas tankers (PAGZ).

Providing consumers with gas during scheduled and emergency recovery work at the facilities of the main gas pipeline is carried out according to STO Gazprom 2-3.5-454-2010 “Rules for the operation of main gas pipelines” and STO Gazprom 2-2.3-1122-2017 “Gas distribution stations. Operating Rules".

In accordance with the requirements of STO Gazprom:

the duration of work with the need to bleed gas and turn off the GDS should not exceed 24 hours;

GDS shutdown periods are calculated in accordance with the time of scheduled work on the linear part of the main gas pipeline (MG) and GDS, as well as the technical possibility of supplying gas to the consumer using mobile gas supply devices (MGD) or PAGZ.

The use of MUPG is possible only during scheduled repair work at the GDS. When performing work on the linear part of the GPGM, they are useless, due to the absence or limitation of the required volume of gas in the gas pipeline-outlet. Therefore, in the performance of work on the linear part of the main gas pipeline, PAGZ is used.

The gas pressure in the PAGZ is up to 24 MPa, and at the inlet/outlet from the GDS and the gas reduction points of the gas supply system (GRG SG) up to 7.4 MPa and 0.3 MPa, respectively. During reduction, the gas is cooled due to the Joule-Thomson effect at the inlet to the reducing device as a result of pressure drop. A decrease in pressure for every 0.1 MPa lowers the gas temperature by approximately 0.5°C, which can lead to a decrease in temperature to the dew point temperature and, accordingly, to the formation of hydrate plugs in the pipelines and communications of the GDS and SG, which can lead to a drop gas pressure and limit gas supply to consumers. Gas supply to the GDS and SG communications should be carried out at the temperature established by the design solutions. For the temperate continental climate zone, the gas supply temperature should not fall below minus 40°C. The operation of GDS and SG with a temperature below the permissible one adversely affects the structure of the metal of pipelines and equipment. Such an impact creates the prerequisites for the destruction of the metal itself, which creates a risk of an incident or accident.

Currently, there are pressure regulators that have a complex design for a multi-stage reduction process. Such a process leads to a decrease in temperature in each reduction stage, i.e. at the output of each regulator. When gas is supplied from the PAGZ, the inlet pressure is stable, and the use of multi-stage reducing devices leads to a sharp decrease in temperature during the reduction process. This leads to unacceptable modes of operation of the GDS and SG equipment, the gas temperature drops below the permissible design values.

Therefore, the problem of creating a reducing unit of a simple design, which makes it possible to carry out the reduction of natural gas with a decrease in its temperature not lower than the permissible values (minus 40°C), is relevant.

MUPG is known, which performs the functions of supplying gas to the consumer during repair work (RF Patent No. 2716659, publ. 13.03.2020).

MUPG includes, like GDS, units for switching, cleaning, heating and gas reduction. To connect the MUPG to the PAGZ, the switching unit contains shut-off valves at the inlet to the main and bypass gas supply lines to the consumer, as well as a gas supply valve from the outlet of the main gas pipeline and a shut-off valve at the inlet to the line between the supply valve and the main line shut-off valve. At the same time, a gas flow cutter with a gas pressure regulator is built into the gas supply line from the PAGZ. The technical result from the use is the versatility of the mobile gas supply unit, which makes it possible to connect both to the main gas pipeline and to the mobile gas station.

The disadvantage of this device is that in order to connect the mobile gas supply unit to the communications of the gas pipeline facilities, it is necessary to carry out design work on connection to ensure gas supply to consumers from the gas filling station or from the gas outlet, as well as the organization and conduct of gas-hazardous hot work, which in turn requires the release from the gas of GDS communications, respectively, this will lead to a restriction or termination of gas supply to consumers with gas, environmental pollution.

Known "Gas flow cutter module with gas pressure regulator" (RF Patent No. 2696841, publ. 08/06/2019) for reducing the high pressure of gas supplied to the network to the consumer from a high pressure gas source from 25 MPa to 30 MPa, for example, PAGZ with automobile cut-off of a stream of gas at excess of pressure.

The essence of the invention lies in the use of a two-stage gas pressure regulator with a gas flow cut-off module and with stopcocks at the inlet and outlet of the module to reduce the gas supplied from the PAGZ.

This module has the following disadvantages: when gas is reduced from 20 MPa to 3.0 MPa, gas with a temperature of minus 90°C enters the switching, which is a significant deviation from the design solutions; if it is necessary to maintain a constant inlet pressure at the GDS, there is no stability in the operation of the regulators, i.e. there is a sharp pressure drop, which ranges from 3.0 MPa to 6.0 MPa, which is not acceptable for use on GDS with an inlet design pressure of 5.5 MPa.

A module of paired regulators "LORD" is known (Passport AGS 960.00.00.000.-2 PS) when performing work with PAGZ manufactured by LLC NPP Aviagaz-Soyuz +, Kazan, taken by us as a prototype. The module of coupled gas pressure regulators "LORD" is designed to reduce high-pressure gas and automatically maintain the pressure in the outlet gas pipeline within the specified range with the required accuracy, regardless of gas withdrawal by the consumer and pressure fluctuations at the regulator inlet.

Modules "LORD" when performing work with PAGZ have the following disadvantages. Large dimensions and high weight of the module, which is due to the weight of the regulators in the module, which is 300 kg, which greatly complicates its transportation. The working temperature of the gas during reduction drops to minus 90°C, which is a significant deviation from the design solutions, leads to a decrease in the quality of the gas, which indicates a low efficiency of the modules.

Gas pressure drops from 3 MPa to 6 MPa, which are unacceptable for use on GDS with an outlet design pressure of 5.5 MPa, make the operation of the modules unreliable. Complicated and lengthy adjustment of the regulators in the module, requiring appropriate qualifications of personnel and a long time.

The technical problem solved by the proposed utility model is the creation of a mobile, easy-to-use, efficient and reliable reducing unit for gas supply to consumers from mobile gas tankers.

The technical result from the application of the utility model is to simplify the application, increase the mobility, reliability and efficiency of the reducing unit for gas supply to consumers from mobile gas tankers.

The technical result is achieved by the fact that the reducing unit for gas supply to consumers from mobile gas tankers, including three ball valves at the inlet, one ball valve for gas discharge, a constant differential valve, an inlet manifold, two pressure gauges with shut-off devices at the inlet and outlet, a throttle valve at the pipeline of the main gas supply line, a safety valve, an outlet manifold, two pipelines of the main gas supply line, while each of the three pipelines of the main gas supply line contains two throttle valves, a pressure gauge, external thermal insulation, a winding of an electric heating cable connected to a temperature control sensor with the ability to connect to a power source.

The proposed utility model is illustrated in Fig. 1, which shows a reducing unit for gas supply to consumers from assembled mobile gas tankers.

The reducing unit for gas supply to consumers from mobile gas tankers consists of supply pipelines (1-3) with embedded ball valves (4-6) and installed fittings (7-9). The inlet pipelines (1-3) are connected to the inlet of the inlet manifold (10) into the first outlet of which the outlet pipeline (11) is embedded with an embedded constant differential valve (12) and a ball valve (13) for gas discharge, the outlet pipeline is embedded into the second outlet ( 14) with installed pressure gauge (15) and embedded ball valve (16). Pipelines (17-19) of the main gas supply lines are embedded at the outlet of the inlet manifold (10). Pipelines (17-19) of the main gas supply lines, with pressure gauges (20-22) installed on them, embedded throttle valves (23-28), wound from the inlet manifold (10) to the outlet manifold (29) with an electric heating cable (30), on top of which external thermal insulation (31) is applied, are cut into the inlet of the outlet manifold (29). An outlet pipeline (32) with a fitted fitting (33) is cut into the outlet of the outlet manifold (29). On one side of the outlet pipeline (32), a pipeline (34) with an installed pressure gauge (35) and an embedded ball valve (36) is embedded, and on the other side, an outlet pipeline (37) with an embedded safety valve (38) is embedded.

The reducing unit is connected via a cable (39) to a 220 V power source (40) (all gas distribution stations are equipped with sources, a generator is used for SG) and is equipped with a temperature control sensor (41).

The reducing unit for gas supply to consumers from mobile gas tankers works as follows.

PAGZ is connected through flexible hoses to one, two or simultaneously three fittings (7-9) of the inlet gas pipeline (1-3). The design of the inlet manifold (10) allows you to connect up to three SGZs at the same time, which makes switching convenient. The outlet pipeline (32) is connected through the fitting (33) to the GDS and SG pipeline.

Gas is supplied from the PAGZ to the reducing unit, the valves (4,5,6) are fully opened. The cock (16) on the pipeline (14) is opened and the pressure in the inlet manifold (10) is measured with a pressure gauge (15). Open the gas relief valve (13) on the outlet pipeline (11), if the pressure in the inlet manifold (10) is exceeded by more than 12% of the set inlet pressure, the constant differential valve (12) will open.

Throttle valves (23, 25) are opened until the inlet pressure drops from 24 MPa to 10 MPa. The pressure in the pipelines (17, 18) is controlled by pressure gauges (20, 21): when connected to the SG, the pressure depends on the pressure in the consumer network and is up to 1.2 MPa, when connected to the GDS up to 7.5 MPa. Throttle valves (24, 26) are opened until the operating pressure decreases, the outlet pressure from the reducing unit after the outlet manifold (29) is determined using the pressure gauge (35). When the pressure in the outlet manifold (29) is exceeded by more than 12% of the set outlet pressure, the safety valve (38) on the outlet pipe (37) opens.

The gas is fed through the outlet pipeline (32) to the GDS and SG pipelines. The reducing unit is designed for a maximum gas flow rate of up to 1000 Nm ³ /h.

The reduction line (19) with throttle valves (27, 28) is reserved. It is connected in case of malfunction of one of the throttle valves (23, 24, 25, 26).

The temperature of the gas entering the GDS and SG gas pipelines after reduction is controlled by sensors at the GDS. If the temperature in the GDS and SG gas pipelines drops below minus 40°C, the pipeline heating system, consisting of a heating electric cable (30) and thermal insulation (31), is connected to an electric power source (40) through a cable (39). The heating temperature of the pipelines (17, 18) and, accordingly, the gas is kept constant by means of a temperature control sensor (41). When the temperature rises or falls, the sensor automatically regulates the heating of the electric heating cable (30).

The pressure at the outlet from the PAGZ is from 3.0 to 25.0 MPa. (according to gas consumption) When carrying out work to provide consumers with gas through the reducing unit from the gas filling station, the gas temperature in the pipeline does not exceed minus 40 ° C and the set pressure drop does not exceed 0.05 MPa.

дюйма до 2 дюймов, например, марки V-TVG1-7 Ду 20 мм. Коллекторы могут быть выполнены из труб диаметром от 20 мм до 108 мм. Для обогрева может быть использован любой нагревающий саморегулирующийся кабель, мощностью от 30 Вт/м, например марки xLayder, 30EHL2-CR. В качестве теплоизоляции могут быть использованы минераловатные цилиндры с фольгированным защитным слоем, например, марки МПБ, а также тип ВУС, ППУ, ППМ, РУ-ФЛЕКС, утеплители из пенопласта и пенополистирола. Манометры с параметрами измерения до 40 МПа. Гибкие рукава от ПАГЗ, с параметрами от 15 мм/до 150 мм, с давлением до 1,2 МПа для подключения к выходному оборудования ГРС, до 8,0 МПа для подключения к входному оборудования ГРС, до 30 МПа для подключения к ПАГЗ, например, ВД Ду 15 мм.Industrial applicability - all pipelines, shut-off and reducing valves are made of stainless steel, for example, steel grade 06HN28MDT. Ball valves can be used in any modification DN 20 mm with a working pressure of 25 MPa. Butterfly valves must have a bore diameter of

inch to 2 inches, for example, brand V-TVG1-7 DN 20 mm. Collectors can be made of pipes with a diameter of 20 mm to 108 mm. For heating, any self-regulating heating cable can be used, with a power of 30 W / m, for example, xLayder brand, 30EHL2-CR. As thermal insulation, mineral wool cylinders with a foil protective layer, for example, the MPB brand, as well as the VUS, PPU, PPM, RU-FLEX types, foam and polystyrene foam insulation, can be used. Pressure gauges with measurement parameters up to 40 MPa. Flexible hoses from PAGZ, with parameters from 15 mm / up to 150 mm, with pressure up to 1.2 MPa for connection to the outlet equipment of the GDS, up to 8.0 MPa for connection to the inlet equipment of the GDS, up to 30 MPa for connection to the PAGZ, for example , ID DN 15 mm.

Thus, the proposed utility model of a reducing unit for gas supply to consumers from mobile gas tankers is mobile and easy to use due to the absence of configurable paired pressure regulators. The reliability of the reducing unit ensures the absence of gas pressure drops above 0.5 MPa due to the presence of two throttle valves on each of the three pipelines of the main gas supply line. A constant normalized temperature level that does not fall below minus 40°C, thereby preventing the formation of hydrate plugs in the pipelines and communications of the GDS and SG, due to the winding of the electric heating cable, thermal insulation and temperature sensor, makes the operation of the reducing unit efficient.

Claims (1)

A reducing unit for gas supply to consumers from mobile gas tankers, including three ball valves at the inlet, one ball valve for gas discharge, a constant differential valve, an inlet manifold, two pressure gauges with shut-off devices at the inlet and outlet, a throttle valve on the pipeline of the main gas supply line, safety valve, characterized in that it additionally contains an outlet manifold, two pipelines of the main gas supply line, while each of the three pipelines of the main gas supply line contains two throttle valves, a pressure gauge, external thermal insulation, a winding from an electric heating cable connected to a temperature control sensor with the ability to connect to a power source.

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