RU2623726C1 - Self-contained block-modular automated gas distribution station - Google Patents

Abstract

FIELD: oil and gas industry.

SUBSTANCE: proposed station includes the gas preparation module, consisting of the switching block with high and low pressure switching units and the distribution unit, the gas cleaning unit, the heater with the gas and air heating units, the gas odorization block with the odorant capacity and the self-contained power supply block. In addition, the station includes at least one gas reduction and accounting module, which consists of at least one reduction block with the metering unit. During the station operation, the high pressure gas, entering through the high-pressure switching unit is cleaned, heated by the hot coolant, supplied from the coolant heating unit, odorized and sent through the distribution unit to the consumer after the reduction and commercial accounting. The part of the high-pressure gas is supplied for the own needs through the bypass lines for feeding the self-contained power supply unit, pneumatic drive shut-off and control valves, and the coolant heating unit.

EFFECT: self-contained station operation, providing the gas to several consumers, reduction of the station metal and energy consumption.

2 cl, 1 dwg

Description

The invention relates to gas distribution stations located on branches of trunk pipelines, and can be used in the gas industry.

Known gas distribution station [RU 2079040, publ. 05/10/1997, IPC F17D 1/04], including inlet and outlet gas pipelines, a process unit with sequentially located switching units, gas purification with a condensate collector, gas heating with a heat exchanger-heater, reduction, consisting of two threads, flow measurement, and an odorization system including an odorant tank and an odorizer connected to an outlet gas pipeline, as well as a control and alarm unit and a heating medium heating boiler.

The disadvantages of the known station is the lack of automatic control and the inability to provide gas to several consumers.

Closest to the technical nature of the proposed invention is a utility model of a gas distribution station operating according to the "poorly populated" technology, also designed to supply gas to one consumer [RU 124943, publ. 02/20/2013, IPC F17D 3/01], which includes sequentially located, connected by pipelines: a switching unit consisting of high and low pressure units, a gas heater, a reduction unit, consisting of the main (working) and reserve threads equipped with gas purification filters (cleaning units) with an underground condensate collecting tank, a flow meter (commercial gas metering unit), a gas odorization unit connected to an underground odorant tank. The station is equipped with pneumatic and electric shut-off and control valves and is controlled by an automatic control system that receives data from temperature, pressure, differential pressure and level sensors. The station requires equipping with heating and ventilation systems, a pulsed and fuel gas preparation unit, as well as a cathodic protection system due to the presence of underground tanks.

The main disadvantages of this station are:

- the impossibility of autonomous operation due to the lack of an autonomous energy supply system,

- the impossibility of providing gas to several consumers due to the presence of only one working thread,

- the impossibility of changing the productivity of the station in a range exceeding the operating ranges of the reduction unit and the commercial accounting unit

- the presence of underground tanks, which leads to high energy consumption for cathodic protection against corrosion and high metal consumption of the station,

- installation of a heater to gas cleaning units, which leads to its pollution, as well as evaporation of a dropping liquid (if it is present in a high-pressure gas), and the need to heat the gas to a higher temperature to prevent freezing of equipment, which increases fuel consumption.

The objective of the invention is the autonomy of the station, providing gas to several consumers, changes in plant performance in a range exceeding the operating ranges of the reduction unit and the commercial metering unit, reducing the plant's metal consumption and reducing energy consumption.

EFFECT: autonomous operation of the station due to its equipment with an autonomous power supply unit, gas supply to several consumers and a change in station performance in a range exceeding the operating ranges of the reduction unit and commercial metering station, due to the modular layout of the station, consisting of a gas preparation module and several reduction modules and gas metering, reducing the plant’s metal consumption by eliminating underground condensate collection and odorant storage tanks, as well as reducing energy consumption due to the installation of a gas heater after the cleaning unit and the exclusion of the cathodic protection system.

The specified technical result is achieved by the fact that in a known station equipped with pneumatic and electric shut-off and control valves controlled by an automatic control system that receives data from temperature, pressure and level sensors, including a switching unit with high and low pressure switching units, a reduction unit with working and reserve threads, gas cleaning and gas metering units, as well as an odorization unit connected to an odorant capacity, heating and ventilation systems, The fact is that the station is equipped with ground-based equipment and consists of a gas preparation module, which includes a switching unit, additionally equipped with a distribution unit, a cleaning unit, a heater and a gas odorization unit, sequentially located on the high-pressure gas line between the high-pressure switching unit and the unit distribution, as well as an autonomous power supply unit, and at least one gas reduction and metering unit, which includes at least one reduction unit, connected by a high pressure gas line to a distribution unit, equipped with a low pressure gas line on which a metering unit and a low pressure switching unit are located, wherein the distribution unit is connected to a low pressure gas line in front of the metering unit by bypass lines on which the autonomous power supply unit is located and pneumatic actuating shut-off and control valves, and the heater consists of a gas heating unit connected by a chilled coolant supply line to the heating system I and the supply line of the heated coolant with the heating medium heating unit, which is equipped with a condensate recovery system and is equipped with air, fuel gas and coolant output lines.

The gas treatment unit can be made in the form of a filter, or a centrifugal-vortex (or other centrifugal) separator, or a combination thereof. The condensate utilization system can be made in the form of a device with units for evaporation, separation and catalytic oxidation or fire afterburning of condensate vapor. The gas heating unit may be a heat exchanger of any design known in the art. The heating medium heating unit can be made in the form of a fire furnace of a flameless or flameless type, in which either exhaust gas (flue gas) or heated air acts as a heating medium. In the latter case, the heating medium heating unit is additionally equipped with an exhaust (flue) gas outlet line. The autonomous power supply unit may be, for example, an expander generator.

To supply gas to several consumers, gas reduction and metering modules can be equipped with several working threads according to the number of consumers (preferably no more than three threads each), equipped with sensors and shut-off and control valves.

If it is necessary to change the station’s productivity when new consumers appear or turn off existing consumers in a range that exceeds the operating ranges of the reduction unit and the commercial metering unit, the station is equipped with several gas reduction and metering modules with a capacity of each module not less than the expected minimum gas consumption. At the same time, the gas preparation module has a capacity not less than the expected maximum gas consumption. At the same time, the plant’s productivity is changed by changing the number of gas reduction and metering modules (appropriate — typical), the necessary number of which can be in reserve, ensuring the stable functioning of the territorial gas supply system and reducing its cost due to the rational use of production capacities.

Equipping the station with one gas purification unit installed before the heater simplifies the station and reduces its metal consumption, as well as reduces fuel consumption by preventing contamination of heat-exchanging surfaces with mechanical impurities and a more complete separation of the dropping liquid that comes with the gas.

The ground-based design of the plant equipment eliminates the cathodic protection system, thereby reducing energy consumption, and the equipment of the gas preparation module with an autonomous energy supply unit ensures the operation of the station without using external sources of energy. Equipping the gas heater with a condensate utilization system allows eliminating the condensate collection capacity from the station, thereby simplifying the station and reducing its metal consumption.

Equipping the switching unit with a distribution unit allows directing high-pressure gas to its own needs (for air heater fuel, for supplying power to valves and self-contained power supply units) and distributing the gas flow between the gas reduction and metering modules, which makes it possible to provide gas to several consumers.

Equipping a station with several gas reduction and metering modules, which include at least one reduction unit, makes it possible to change station performance in a range that exceeds the operating ranges of the reduction unit and commercial metering unit.

The proposed autonomous block-modular automated gas distribution station (see drawing) includes a gas preparation module 1 consisting of a switching unit 2 with a high pressure switching unit 3, a distribution unit 4 and a low pressure switching unit 5, a gas cleaning unit 6, a heater with heating units gas 7 and coolant 8, a gas odorization unit 9 with an odorant capacity, and an autonomous energy supply unit 10. In addition, the station includes at least one gas reduction and metering unit 11, which consists of at least one reduction unit 12 (one working thread is conventionally shown) with a commercial metering unit 13.

When the station is operating, the high-pressure gas coming through line 14 through node 3 is cleaned in node 6, heated in node 7 by the hot coolant supplied through line 15 from node 8, odorized in block 9, and through node 4 a small part is supplied for own needs by bypass lines 16 for powering the unit 10 and pneumatic actuating valves 17, and the main part is reduced in block 12 and through line 18 through the metering unit 13 and node 5 is sent to the consumer. In the node 8 on the line 19 serves fuel, for example, gas from one of the bypass lines 16, on the line 20 - air, and on the line 21 - condensate. When heated air is supplied through line 15 as a coolant, an exhaust (flue) gas (shown by a dotted line) is discharged from the unit 8 through line 22. The cooled coolant from the gas heating unit 7 through line 23 is fed into the heating system.

Thus, the present invention allows the station to be operated in an autonomous mode, providing gas to several consumers, to change the station's performance in a range exceeding the operating ranges of the reduction unit and the commercial metering unit, reduces the station's metal consumption, reduces energy consumption and can be used in the gas industry.

Claims (2)

1. Automated gas distribution station equipped with pneumatic and electric shut-off and control valves, controlled by an automatic control system that receives data from temperature, pressure and level sensors, including a switching unit with switching units for high and low pressure, a reducing unit with operating and reserve threads , gas cleaning and commercial metering units, as well as an odorization unit connected to the capacity of the odorant, heating and ventilation systems, characterized in that The station is equipped with ground-based equipment and consists of a gas preparation module, which includes a switching unit, additionally equipped with a distribution unit, a cleaning unit, a heater and a gas odorization unit, sequentially located on the high pressure gas line between the high pressure switching unit and the distribution unit, as well as the unit autonomous energy supply, and at least one gas reduction and metering module, which includes at least one reduction unit, connected by a high-pressure gas line pressure unit with a distribution unit equipped with a low pressure gas line on which the metering unit and low pressure switching unit are located, while the distribution unit is connected to the low pressure gas line in front of the metering unit by bypass lines on which the autonomous power supply unit and pneumatic actuator are located -regulating fittings, and the heater consists of a gas heating unit connected by a supply line of a cooled coolant to the heating system and a supply line of heated a heating medium with a heating medium heating unit, which is equipped with a condensate recovery system and is equipped with air and fuel gas supply lines. 2. The station according to claim 1, characterized in that the gas reduction and metering modules are equipped with several work threads according to the number of consumers.

Images