RU2671554C1 - Automatic gas distribution station (options) - Google Patents

Abstract

FIELD: gas industry.SUBSTANCE: group of inventions relates to gas distribution systems that can be used in gas distribution stations for supplying gas to consumers. Automatic gas distribution station in the first version contains a high-pressure gas preparation module and a reduction module. Gas preparation module includes a gas switching unit for the main and backup high-pressure lines and the bypass by means of electrically driven shut-off and regulating valves and heat exchangers for heating the gas, latter are connected by lines of heated and cooled coolant with the main and backup heaters, combined inlet and outlet manifolds, and coolant supply pumps. Heaters are connected to the high pressure gas supply line with a line equipped with a device for measuring the flow rate of fuel gas. Main and backup high-pressure gas lines contain gas cleaning units equipped with a condensate recovery system, septic tanks of which are connected to the condensate discharge collector with lines equipped with electrically driven shut-off and control valves connected to the automatic control system. Collector is connected to the condensate recovery tank, which is equipped with a pressure sensor and an overpressure protection unit by discharge of gas to the candle. Reduction module includes working and backup lines connected to gas outlets from heat exchangers. Outputs of the reduction module threads are connected to a low gas pressure line, in which a protection node against gas overpressure is built in front of the bypass to a spark plug. Bypass includes a cleaning unit and a gas reducer and connects the switching unit with the threads of the gas metering module installed at the outlet of the low pressure line, behind which the odorization unit is connected, connected to the gas distribution unit to consumers. Headers of the flow lines of the heated and cooled coolant are connected to the main and standby coolant heaters by means of three-way electrically driven shut-off and distribution valves connected with the automatic control system. In the second version of the automatic gas distribution station, the preheated gas exit line from the heat exchangers and the line of entry into the working and back-up lines of the reduction module and redundant high-pressure lines are connected by three-way electrically-driven shut-off and distribution valves, connected by an outlet and an inlet with one high-pressure gas line.EFFECT: increase in the level of automation and reliability of gas distribution stations.4 cl, 2 dwg

Description

The group of inventions relates to gas distribution systems and can be used in gas distribution stations for supplying gas to consumers.

Known gas distribution station containing inlet and outlet gas pipelines, a process unit including switching, cleaning, gas metering, reduction units connected by process pipelines, and an odorization system, burglar alarm, purge fittings are made on process pipelines made with the possibility to connect to automation equipment and telemechanics. (Patent RU No. 62206 U1. Gas distribution station. - IPC: F17D 1/04. - 03/27/2007).

Known gas distribution station, consisting of a gas heater, a reduction unit, a flow meter, a gas odorization unit and a switching unit, pneumatic-hydraulic valves with temperature and pressure sensors at the inlet and outlet of the gas distribution station, a bypass line equipped with a control valve with an electric actuator and a shut-off pneumatic actuator, pressure sensors on the candle lines and on the pulse gas line of crane control, as well as electronic components of the automatic control system with diagnostic function and. (Patent RU No. 124943 U1. Gas distribution station operating according to the "poorly populated" gas supply technology. - IPC: F17D 3/01. - 02.20.2013).

Known modular gas distribution station with inlet and outlet valves, including switching units connected by pipelines, functional units for gas purification, gas reduction, hydrate formation prevention, gas flow rate measurement, gas odorization, pulsed gas preparation, telemechanics power supply system, communications, process and power equipment control, control and automation, electric lighting, lightning protection, protection against static electricity, electrochemical protection, heating and ventilation, Store signaling gas control and automatic reset sludge, with manual and / or automatic control of the control valves with pneumatic or electric drive. The cleaning unit with the unit for preventing hydrate formation, the unit for reducing, the unit for preparing gas for own needs are connected by a backup line. (Patent RU No. 148986 U1. Modular gas distribution station. - IPC: F17D 1/04. - 12.20.2014).

A self-contained automated gas distribution complex comprising a gas preparation module including a switching unit with high pressure switching units, low pressure distribution and switching units, a gas treatment unit, a gas heater with a gas heating unit and a hot air generator connected to the air supply line to the heating system and ventilation, as well as to the exhaust gas exhaust line, the high-pressure switching unit on one side being connected at the inlet to the high-pressure gas supply line at the outlet, with a gas distribution unit with high pressure lines through gas cleaning and heating units, as well as a gas odorization unit connected to the entrance to the low pressure switching unit, which, in turn, is connected to the low pressure gas exhaust line. The complex also includes at least one gas reduction and metering unit with interconnected gas reduction and commercial metering units, the reduction unit being connected to the output of the distribution unit and the output of the commercial metering unit to the input of the gas odorization unit. The gas preparation module is equipped with a pulse and fuel gas preparation and metering unit, connected by an inlet to a gas distribution unit, and by exits with a hot air generator and a line connecting the reduction and commercial metering units, by a bypass line, an autonomous power supply unit for pneumatic dynamic equipment and shut-off and control valves fittings installed in parallel in the lines connecting the fuel gas unit to the distribution unit and the bypass line. (Patent RU No. 2639453 C1. Autonomous automated gas distribution complex (options). - IPC: F17D 1/04, F17D 1/075. - 12/21/2017). This invention is taken as a prototype.

The main disadvantage of the known technical solutions is the low level of reliability of gas distribution stations, which requires a high frequency of routine maintenance during operation.

The main task to which the claimed technical solutions are directed is to increase the level of automation of work and the reliability of operation of gas distribution stations, as well as reduce the time limit for their maintenance.

The technical result is an increase in the level of automation and reliability of gas distribution stations.

The specified technical result is achieved by the fact that in the known automatic gas distribution station, in the first embodiment, comprising a gas preparation module including a high pressure line with gas cleaning and heating units, connected by a switching unit to the supply line to the main gas station, and a low pressure line with odorization unit, connected by the distribution unit to the gas exhaust lines to consumers, a reduction module with working and backup reduction threads connected at both ends of the line high and low pressure, and a gas commercial metering module, while the gas heating unit consists of a heat exchanger connected by lines of direct and return coolant flows with a heater powered by a fuel gas supply line equipped with a meter for measuring its flow, bypass connected to the gas line low pressure in front of the gas commercial metering module, and the condensate recovery system, equipped with electric shut-off and control valves and sensors for gas temperature and pressure and condensate level, are connected automatic control system, according to the proposed technical solution,

the gas preparation module further includes a backup high-pressure gas line with a purification unit and a heat exchanger for the gas heating unit, which is connected to the gas supply line to the gas distribution station with electric drive shut-off and control valves of the switching unit associated with the automatic control system, while the outputs of the heat exchangers of the main and backup lines are connected to the corresponding working and backup threads of the reduction module, and gas purification units of the main and standby high pressure lines are connected to the condensate drain manifold by lines equipped with electric shut-off and control valves connected to the automatic control system, while the collector is connected to a condensate utilization tank equipped with a pressure and condensate level sensor and an anti-excess unit gas pressure by dumping on a candle, and the bypass includes a gas purification unit and a gas pressure reducer, and connects the switching unit to the working and backup threads of the commercial module th gas metering installed on the low pressure gas line in front of odorizing unit, to which the low-pressure gas line integrated protection against excess pressure gas discharge assembly by a candle;

collectors of flow lines of heated and cooled heat carrier are connected to the main and backup heat carrier heaters by means of three-way electric drive shut-off and distribution valves connected with an automatic control system.

The specified technical result is achieved by the fact that in the known automatic gas distribution station, in the second embodiment, comprising a gas preparation module including a high pressure line with gas cleaning and heating units, connected by a switching unit to the supply line to the main gas station, and a low pressure line with odorization unit connected by the distribution unit to the gas exhaust lines to consumers, a reduction module with a working and backup reduction threads connected at both ends of the line high and low pressure, and gas commercial metering module, while the gas heating unit consists of a heat exchanger connected by direct and return coolant lines with a heater powered by a fuel gas supply line equipped with a meter for measuring its flow, bypass connected to the gas line low pressure in front of the gas commercial metering module, and a condensate recovery system equipped with electric shut-off and control valves and sensors for gas temperature and pressure and condensate level ie the automatic control system, according to the proposed technical solution,

the gas preparation module further includes a backup high-pressure gas line with a purification unit and a heat exchanger for the gas heating unit, which is connected to the gas supply line to the gas distribution station with electric drive shut-off and control valves of the switching unit associated with the automatic control system, the heated gas exit lines from the heat exchangers of the main and backup lines and the input lines to the working and backup threads of the reduction module are combined three-way electric drive shut-off and distribution valves connected to the automatic control system, connected to the output and input by one common high-pressure gas line, and the sumps of gas purification units are connected to the condensate discharge manifold by lines equipped with electric drive shut-off and control valves connected to the automatic control system, and the collector is connected to a condensate recovery tank equipped with a pressure and condensate level sensor with an overpressure protection unit ha and by dumping it onto a candle, and the bypass includes a gas purification unit and a gas reducer, and connects the switching unit to the working and reserve threads of the gas commercial metering unit installed on the low pressure gas line in front of the odorization unit, in front of which a protection unit is built into the low pressure gas line from exceeding gas pressure by dumping on a candle;

collectors of flow lines of heated and cooled heat carrier are connected to the main and backup heat carrier heaters by means of three-way electric drive shut-off and distribution valves connected with an automatic control system.

The analysis of the prior art by the applicant has made it possible to establish that there are no analogues that are characterized by sets of features that are identical to all the features of the declared options for an automatic gas distribution station. Therefore, the claimed options for technical solutions meet the condition of patentability "novelty."

The results of the search for known solutions in this technical field in order to identify features that match the distinctive features of the claimed variants of the technical solutions from the prototype have shown that they do not follow explicitly from the prior art. From the prior art determined by the applicant, the influence of the transformations provided for by the essential features of the claimed technical solutions on the achievement of the specified technical result is not revealed. Therefore, the claimed technical solutions meet the condition of patentability "inventive step".

The proposed technical solutions can be used in gas distribution stations to supply gas to consumers. Therefore, the claimed options for technical solutions meet the condition of patentability "industrial applicability".

In FIG. 1 schematically shows the proposed automatic gas distribution station, in the first embodiment; in FIG. 2 - the same, second embodiment.

The automatic gas distribution station, in the first embodiment, comprises a high pressure gas preparation module 1 and a gas reduction module 2. The gas preparation module 1 includes a gas switching unit 3 from the main gas supply line 4 to the station to the main line 5 and a backup high pressure gas line 6 and a bypass 7 by means of electric shut-off and control valves 8 of the gas switching unit 3, and heat exchangers 9 for heating the gas. Heat exchangers 9 are connected by flow lines of heated 10 and cooled 11 coolant with a heating unit 12 of the coolant, including primary and backup heaters 13 of the coolant, combined at the inlet and outlet of the collectors 14, and pumps 15 for supplying the heated coolant to the heat exchangers 9. The heaters 13 of the coolant are connected to line 4 supply to the gas station of high pressure line 16, equipped with a device 17 for measuring the flow of fuel gas. The main 5 and backup 6 high-pressure gas lines contain gas purification units 18 equipped with a condensate recovery system, the sumps of which are connected to the condensate discharge collector 19 by lines 20 equipped with electric shut-off and control valves 21 connected to the automatic control system. The collector 19 is connected by a line 22 to a condensate recovery tank 23 equipped with a pressure sensor 24 and an overpressure protection unit 25 containing a three-way valve 26 and two safety valves 27 in the gas discharge lines 28 to the spark plug. The gas reduction module 2 includes a working and reserve thread 29 with reduction nodes 30 and electric shut-off and control valves 31 connected to the exits of the heated high-pressure gas from the heat exchangers 9 by lines 32. The outputs of the threads 29 of the reduction module 2 are connected to the low-pressure gas line 33, in which, before the bypass 7 is turned on, a protection unit 25 is built in against gas overpressure by dumping it onto a candle. At the output of low pressure line 33, a gas metering module 34 is installed, including working and reserve threads 35 with gas metering units 36 and shut-off valves 37, behind which line 38 is connected to an odorization block 39 connected to a gas distribution unit to consumers (not shown conventionally) . Bypass 7 includes a series-connected gas purification unit 40 and a gas reducer 41 connecting the electric shut-off and control valve 8 of the switching unit 3 with the working and reserve threads 35 of the gas commercial accounting module 34. (Fig. 1). The collectors 14 of the flow lines of heated 10 and cooled 11 heat carrier are connected to the primary and backup heat carrier heaters 13 by means of three-way electric drive shut-off and distribution valves 42 connected to the automatic control system, with the possibility of switching the heat carrier flows to each or both of the heaters 13.

In the second embodiment of the automatic gas distribution station, the heated gas exit lines 43 from the heat exchangers 9 of the main 5 and the backup 6 high-pressure lines are connected by a three-way electric drive shut-off and distribution valve 44, connected by the output to the working and reserve threads 29 of the reduction module 2, combined at the inputs 45 by a second three-way electric shut-off valve 46, one common line 47 of high gas pressure with the ability to switch the flow of heated gas from each outlet yes 43 heat exchangers 9 or both outputs together in one or both threads 29 of the reduction module 2 using an automatic control system. (Fig. 2).

Automatic gas distribution station, in the first embodiment, operates as follows.

When the station is operating, the main gas is supplied to the station via line 4, from which gas through the electric shut-off valves 8 of the gas switching unit 3 enters the main 5 and / or backup 6 high-pressure gas lines for cleaning in unit 18, heated in the heat exchanger 9 and gas reduction in module 2, or bypass 7 with gas purification unit 40 and gas reducer 41, depending on the state of the main 5 and backup 6 high-pressure lines and gas requirements associated with the automatic control system, which receives data from sensors The temperature and pressure of the gas and the condensate level in the condensate collector 19 and the discharge tank 23, condensate disposal. From line 4, a small portion of the gas is fed to the heat carrier heaters 13 via line 16, equipped with a fuel gas flow meter 17, and the main part of the gas after heating in the heat exchangers 9 is fed via lines 32 to the corresponding working and reserve threads 29 of the gas reduction module 2, in which the gas pressure also decreases along the low pressure line 33, equipped with a protection unit 25 from exceeding the gas pressure by dumping it onto a candle, through the commercial metering unit 34 and the gas distribution unit with the connection 38 of the odorization block 39, odorized second gas is sent to consumers. After gas purification in the nodes 18, the remaining condensate is disposed of in the sumps of the gas purification nodes 18, then it is discharged to the condensate discharge manifold 19 through lines 20 equipped with electrically operated shut-off and control valves 21, from which the condensate flows through line 22 to the condensate recovery tank 23 equipped with a pressure sensor 24 and a protection unit 25 from exceeding gas pressure by dumping onto a candle. From one or both heaters 13, the heated fluid through a three-way electric drive shut-off and control valve 42, connected to the automatic control system, through the collector 14 by pumps 15 through lines 10 flows into the main and / or standby heat exchangers 9, from the latter, the cooled coolant is removed through lines 11 through the collector 14 by means of a three-way electric drive shut-off and distribution valve 42 back to one or both heaters 13, forming a control system of the coolant temperature and pressure instruments connected by the automatic control system of the station. In case of failure of the units or blocks in the main 5 and / or backup 6 high-pressure gas lines, the main gas from the switching unit 3 is discharged bypass 7 through the purification unit 40 and the gas reducer 41 to the low-pressure line 33 in front of the gas commercial metering unit 34 in automatic exit mode from the gas distribution station to consumers.

In the second embodiment of the automatic gas distribution station, the high-pressure gas after heating in the heat exchangers 9 of the main 5 and the backup 6 high-pressure lines enters through the outputs 43 into a three-way electric drive shut-off and control valve 44, which, if necessary, switches the heated gas flows from each or both of the heat exchangers 9 to reduction module 2 along one common high-pressure line 47 through a second three-way electric drive shut-off and distribution valve 46, which if necessary five switches heated gas stream at the input line 45 to one or both cut-threads 29 of the module 2 depending on the state of the main and backup 5 6 High pressure gas lines. From the reduction module 2, the low-pressure gas through line 33, equipped with a pressure protection unit 25, through the commercial metering unit 34 and the gas distribution unit with the connection 38 of the odorization block 39, the odorized gas is sent to consumers.

Thus, the proposed variants of the invention provide autonomy and reliability of automatic gas distribution stations, increase the level of automation and reliability of gas distribution stations for up to 50 years, change performance in a range exceeding the operating range of the reduction unit, reduce the maintenance schedule and can be used in automatic gas distribution stations for supplying gas to consumers.

Claims (4)

1. An automatic gas distribution station containing a gas preparation module, including a high pressure line with gas purification and heating units, connected by a switching unit to the supply line to the main gas station, and a low pressure line with an odorization unit connected by the distribution unit to gas outlet lines to consumers, a reduction module with a working and backup reduction threads connected at both ends by high and low pressure lines, and a gas commercial metering module, while It consists of a heat exchanger connected by lines of direct and reverse flows of a heat carrier with a heater powered by a fuel gas supply line equipped with a meter for measuring its consumption, a bypass connected to a low pressure gas line in front of the gas commercial metering module, and a condensate recovery system equipped with electric shut-off valves -regulating valves and sensors for temperature and gas pressure and condensate level, associated with an automatic control system, characterized in that the gas preparation module is supplemented It specifically includes a reserve high-pressure gas line with a cleaning unit and a heat exchanger for a gas heating unit, which is connected to the gas supply line to the gas distribution station with electric drive shut-off and control valves of the switching unit associated with the automatic control system, with the main high-pressure line and bypass heat exchangers of the main and standby lines are connected to the corresponding working and standby threads of the reduction module, and the settlers of the gas treatment units of the main and a backup high-pressure line are connected to the condensate drain manifold by lines equipped with electric shut-off and control valves connected to the automatic control system, while the collector is connected to a condensate recovery tank equipped with a pressure and condensate level sensor and a protection unit against excess gas pressure by dumping on a candle, and the bypass includes a gas purification unit and a gas reducer and connects the switching unit to the working and reserve threads of the gas commercial metering module installed on the low gas pressure line in front of the odorization unit, in front of which a gas protection unit is built in to the low gas pressure line by dumping it onto the candle. 2. The station under item 1, characterized in that the collectors of the flow lines of the heated and cooled coolant are connected to the main and backup heaters of the coolant by means of three-way electric drive shut-off and distribution valves connected with an automatic control system. 3. An automatic gas distribution station containing a gas preparation module, including a high pressure line with gas purification and heating units, connected by a switching unit to the supply line to the main gas station, and a low pressure line with an odorization unit connected by the distribution unit to gas outlet lines to consumers, a reduction module with a working and backup reduction threads connected at both ends by high and low pressure lines, and a gas commercial metering module, while It consists of a heat exchanger connected by lines of direct and reverse flows of a heat carrier with a heater powered by a fuel gas supply line equipped with a meter for measuring its consumption, a bypass connected to a low pressure gas line in front of the gas commercial metering module, and a condensate recovery system equipped with electric shut-off valves -regulating valves and sensors for temperature and gas pressure and condensate level, associated with an automatic control system, characterized in that the gas preparation module is supplemented It specifically includes a reserve high-pressure gas line with a cleaning unit and a heat exchanger for a gas heating unit, which is connected to the gas supply line to the gas distribution station with electric drive shut-off and control valves of the switching unit connected to the automatic control system, with the main line of high pressure and bypass the outlet of the heated gas from the heat exchangers of the main and backup lines and the input lines to the working and backup threads of the reduction module are combined with three-way electric drives locking and distributing taps associated with the automatic control system, connected by the output and input of one common high-pressure gas line, and the sumps of the gas treatment units are connected to the condensate discharge manifold by lines equipped with electric drive locking and regulating taps connected to the automatic control system, and the collector connected to a condensate recovery tank equipped with a pressure and condensate level sensor with a gas overpressure protection unit by dumping onto a candle, and a bypass The AC includes a gas purification unit and a gas reducer and connects the switching unit to the working and standby threads of a gas commercial metering unit installed on the low gas pressure line in front of the odorization unit, in front of which a gas overpressure protection unit is integrated into the gas pressure line by dumping it onto a candle . 4. The station according to claim 3, characterized in that the collectors of the flow lines of the heated and cooled coolant are connected to the main and backup heaters of the coolant by means of three-way electric drive shut-off and distribution valves connected with an automatic control system.

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