RU219255U1 - Condensate collection tank at a gas distribution station - Google Patents

Abstract

The utility model relates to the field of practical application in gas purification systems at gas distribution stations (GDS). The technical result from the application of the utility model is to simplify the operation, improve the safety and efficiency of the condensate collection tank at the gas distribution station. The technical result is achieved by the fact that the container for collecting condensate at the gas distribution station contains a horizontal cylindrical vessel, a condensate discharge pipe and an inlet pipe connected to the outlet of the gas distribution station cleaning unit, two ball valves installed on the pipes, a candle pipeline installed on the upper surface a horizontal cylindrical vessel with a recess in its cavity. 1 ill.

Description

The utility model relates to the field of practical application in gas purification systems at gas distribution stations (GDS).

The condensate collection tank is designed for the accumulation and storage of mechanical impurities and liquids formed in the process of gas cleaning by dust and moisture trapping equipment (hereinafter referred to as the filter) at the GDS.

Based on the requirements of clause 9.3.5 of STO Gazprom 2-3.5-051-2006 “Technological design standards for main gas pipelines”, “Reservoirs (tanks) for collecting gas treatment products must be designed for the operating pressure of the supply gas pipeline-outlet”.

The existing gas pipelines-outlets to the GDS have a design pressure value of 5.5 MPa to 7.5 MPa, respectively. All gas distribution stations use containers with a working pressure of 5.5 MPa or 7.5 MPa and a volume of at least 1 m ³ (requirements of clause 9.3.5 STO Gazprom 2-3.5-051-2006), which "Federal norms and rules in the field of industrial safety "rules of industrial safety when using equipment operating under excessive pressure" of the Federal Service for Environmental, Technological and Nuclear Supervision (Order No. 536 dated December 15, 2020) (hereinafter - FNP).

In order to comply with the requirements of the FNP, organizations operating vessels must ensure the following:

technical examination, diagnostics, maintenance and repair of pressure equipment in accordance with the requirements of these FNR;

ensure inspection, maintenance, survey, industrial safety expertise and repair of buildings and structures intended for the implementation of technological processes using pressure equipment;

ensure the availability and serviceability of the necessary set of direct and remote measuring instruments.

There is a container for collecting condensate D1000 mm (No. 2064 / 045-19-TX.OL1) manufactured by JSC NIIPTkhimmash, Penza, which we took as a prototype. The tank consists of a horizontal cylindrical vessel with two nozzles and ball valves on them to discharge gas from the filters. One branch pipe is a drain and is designed to drain condensate. The second branch pipe is inlet, it is connected to the outlet of the gas distribution station cleaning unit.

Filters in the GDS cleaning unit, in accordance with the requirements of manufacturers, must be periodically blown. When blowing, gas with impurities (if any) is fed through the inlet pipe into the container, which creates a high pressure in it. The pressure in the tank is maintained during further operation. When evacuating condensate from the tank through the outlet pipe, the tank must be released from pressure. Gas from the tank through a special system of pipelines is supplied to the consumers' networks or discharged through an additional candle piping. Condensate is pumped out of the tank using any pumping equipment connected to the condensate drain pipe.

The disadvantage of this container for collecting condensate at a gas distribution station is that it is a vessel operating under pressure, which means that in order to meet the requirements of the FNP, it is necessary to test the tightness and strength of the vessels (as part of the technical examination), which is not safe for personnel performing these works.

The technical problem solved by the proposed utility model is the creation of an easy-to-operate, safe and efficient tank for collecting condensate at a gas distribution station.

The technical result from the application of the utility model is to simplify the operation, improve the safety and efficiency of the condensate collection tank at the gas distribution station.

The technical result is achieved by the fact that the container for collecting condensate at the gas distribution station contains a horizontal cylindrical vessel, an outlet pipe for draining condensate and an inlet pipe connected to the outlet of the gas distribution station cleaning unit, two ball valves installed on the pipes, a candle pipeline installed on the top surface of a horizontal cylindrical vessel with penetration into its cavity.

The proposed utility model is shown in the figure.

The condensate collection tank at the gas distribution station consists of a horizontal cylindrical vessel (1) with a volume of at least 1 m ³ made of low-alloy steel (09 g2 s) with a thickness of 12 mm or more; inlet pipe (2) with a tap (3), for example, DN from 22 mm to 50 mm, installed by electric welding on the upper surface of the vessel (1) from the side of the cleaning unit and connected to the outlet of the GDS cleaning unit; outlet pipe (4) with a tap (5), for example, DN from 22 mm to 50 mm, installed by electric welding on the upper surface of the vessel (1) for draining condensate; candle pipeline (6) "open candle", installed by electric welding on the upper surface of the vessel (1) with a depth of 15 mm to 20 mm into the cavity of the vessel (1), made by shutoff valves and provides any cap on top for protection from atmospheric precipitation.

The proposed model works as follows.

By opening the cock (3), gas is supplied from the purification filters through the inlet pipe (2) to the container (1). The gas is discharged into the atmosphere through the spark plug pipeline (6) and does not create pressure in the container (1). Connect any pumping equipment to the pipe (4), open the tap (5) and pump out the condensate from the tank (1).

Thus, the proposed useful model of a container for collecting condensate at a gas distribution station is safe due to the installation of an “open” candle on the body of the container, which ensures a constant connection of the container cavity with the environment, which reduces the risk of increasing pressure inside it (i.e. it is not a vessel operating under excessive pressure and is not subject to the requirements of the FNP). The vessel is easy to operate due to the fact that it is not a pressure vessel, i. does not require additional tests for tightness and strength during operation. The deepening of the candle pipeline inside the body of the vessel provides an additional "swirl" to the gas flow, which provides additional separation of the ejected gas, making the container efficient.

Claims (1)

A container for collecting condensate at a gas distribution station, containing a horizontal cylindrical vessel, an outlet pipe for draining condensate and an inlet pipe connected to the outlet of the gas distribution station cleaning unit, two ball valves installed on the nozzles, characterized in that it additionally contains a candle pipeline installed on the top surface of a horizontal cylindrical vessel with penetration into its cavity.

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