RU46093U1 - GAS ODORIZER - Google Patents

Abstract

The utility model relates to techniques for transporting natural gas and can be used at gas distribution stations (GDS). The objective of the utility model is to create a gas odorizer that ensures the accuracy of the odorant dispensing at each moment of time in proportion to the gas flow rate by controlling the amount of odorant actually introduced into the odorized pipeline, simple construction and reliable in operation. The problem is solved in that a gas odorizer containing a container and a dispenser connected by means of pipelines equipped with electromagnetic valves with a high pressure gas pipeline to each other and the operated gas pipeline, and a control unit made in the form of series-connected pipelines of a flowmeter, an electromagnetic valve and an ejector, the latter is connected via pipelines to a high pressure gas pipeline and an odorized gas pipeline, and can be additionally equipped with an emergency capacity, the input and output of which second piping connected with odoriruemym pipeline, wherein the outlet conduit is provided with sequentially disposed thereon a solenoid valve, control valve and drip. 1 independent P.F.-ls, 1 dependent.p.-fs, 1 Fig.

Description

The utility model relates to techniques for transporting natural gas and can be used at gas distribution stations (GDS).

In accordance with industry standards, natural gas supplied to settlements from gas distribution stations is odorized, i.e., in order to give the gas a specific smell to detect possible leaks, a normalized odorant (ethyl mercaptan) is introduced into the gas pipeline in proportion to the gas flow.

Known gas odorizer OG-10A [1], containing a container with an odorant and a dispenser based on a two-way solenoid valve, connected via pipelines to a high pressure gas pipeline, to each other and an odorized gas pipeline, as well as a control unit, whose electric signal is supplied at a given frequency , through the dispenser, an odorant from the working tank enters the gas pipeline.

However, the known odorizer is not able to control the amount of odorant actually introduced into the odorized gas pipeline, which does not ensure uniform introduction of the odorant into the gas stream in case of possible malfunctions of the odorizer and significantly reduces the reliability of the gas supply to the consumer with the desired degree of odorization.

A gas odorizer [2] is also known, comprising a container with an odorant and a dispenser connected by means of pipelines equipped with electromagnetic valves with a high pressure gas pipeline, to each other and an odorized gas pipeline, and a control unit, the dispenser being made in the form of a cylinder equipped with a movable piston separating the dispensing a cylinder to a dosing chamber of adjustable volume connected to a container with an odorant, a command pressure chamber connected through a controlled solenoid valve to a high pressure source lion, and an intermediate chamber connected through a controlled three-way solenoid valve to the command pressure chamber.

The known odorizer is also not able to control the amount of odorant actually introduced into the odorized gas pipeline, which is not

ensures uniform introduction of an odorant into the gas flow in case of possible malfunctions of the odorizer and significantly reduces the reliability of gas supply to the consumer with the desired degree of odorization.

The objective of the utility model is to create a gas odorizer that ensures the accuracy of the odorant dispensing at each moment of time in proportion to the gas flow rate by controlling the amount of odorant actually introduced into the operated pipeline, of simple design and reliable in operation.

The problem is solved in that in a gas odorizer containing a container with an odorant and a dispenser, connected by means of pipelines equipped with solenoid valves with a high pressure gas pipeline, to each other and an odorized gas pipeline, and a control unit, a dispenser is made in the form of series-connected pipelines of a flow meter, an electromagnetic valve and an ejector the latter being connected via pipelines to a high pressure gas pipeline and an odorized gas pipeline, the gas odorizer may be further provided with a variable container, the input and output of which are connected by pipelines to the odorized gas pipeline, and the output pipeline is equipped with a solenoid valve sequentially located on it, a control valve and a dropper.

Figure 1 shows a diagram of a gas odorizer.

The gas odorizer contains a container with an odorant 1, connected in series by a pipe 2 to a flowmeter 3, an electromagnetic valve 4 and an ejector 5. An ejector 5 is connected by a pipe 6 to an electromagnetic valve 7, a gas preparation unit 8, and a high pressure gas pipeline 9. The ejector 5 is also connected by a pipeline 10 s the odorizable gas pipeline 12, or with the pipeline 13. The pipeline 13 is connected in series to the odorizable gas pipeline 12, dropper 14, valve 11, control valve 15, electromagnetic valve 16 and emergency tank with by an odorant 17. An emergency tank with an odorant 17 is connected by a pipe 18 to an odorizable gas pipeline 12. An odorizable gas pipeline 12, by a pipeline 19 connected in series with a block

gas preparation 20 and a three-way valve 24, can be respectively connected by a pipe 25 or by a pipe 26 to the upper or lower parts of the tank with an odorant 1. Pipeline 2, through a three-way valve 21, can be respectively connected by a pipe 22 or by a pipe 23 to the upper or lower parts of the tank with an odorant 1. The control unit 27 is electrically connected (not shown in the diagram) with a flow meter 3, solenoid valves 4, 7 and 16.

The gas odorizer works as follows.

The gas odorizer provides the introduction of an odorant into the odorized gas line 12 through two pipelines - the main 10 and emergency 13.

Automatic odorization in proportion to the gas flow rate is provided by means of an odorant 3 quantity meter, an electromagnetic valve 4 and an ejector 5, the joint operation of which is controlled and controlled by an electronic control unit 27.

The input of the odorant into the outlet pipe 12 from the working tank 1 is carried out through the pipe 2 and the main pipe 10 due to the pressure difference between the pressure in the tank 1 and the negative pressure in the ejector 5, which is created when gas passes through it from the high pressure gas pipeline 9 through an electromagnetic valve 7 into the odorizable gas pipeline 12.

To configure the ejector 5, gas preparation units 8 and 20 are used. To supply pressure to the working vessel 1, a pipeline 19 is used.

Switching the three-way valves 21 and 24 allows gas odorization by selecting an odorant from a tank with an odorant 1 in the liquid phase through a pipe 23 while simultaneously supplying gas to a tank with an odorant 1 through a pipe 25, or in the vapor phase through a pipe 22 while simultaneously supplying gas to the container with odorant 1 through line 26.

If the odorizer fails, the odorant is introduced into the odorized gas pipeline 12 from the emergency tank with the odorant 17 through the pipe 13 by opening the electromagnetic valve 16 with the simultaneous closing of the electromagnetic valves 4 and 7. Equal pressure in the tank with the odorant 17 with the pressure in the odorized gas pipeline 12 is provided by the pipeline 18.

Gas odorization through pipeline 13 is carried out by the drip method using the control valve (15) and dropper 14.

The presence of the valve 11 allows you to use or not to use in the odorizer emergency capacity with an odorant 17.

Thus, the claimed odorizer ensures guaranteed uniform odorization of the gas in proportion to its flow rate in both automatic and emergency operation. Moreover, the selection of the odorant from the tank of an above-ground or underground installation is possible without the need to create a higher pressure in it than the pressure in the odorized gas pipeline.

High reliability, operational safety, ease of use provide minimum maintenance requirements, minimum costs for after-sales service. In addition, the claimed gas odorizer can be easily adapted to virtually any local operating conditions.

Used Books:

1. Technical characteristic for OG-10A gas odorizer. Advertising prospectus of SU "VOLGOENERGOGAZ", letter DAO "ORGENERGOGAZ" N 187 dated 05/21/97

2. RU 2125713 C1, 1999.01.27 (prototype).

Claims (2)

1. A gas odorizer comprising a container with an odorant and a dispenser connected by means of pipelines equipped with electromagnetic valves with a high pressure gas pipeline to each other and an odorized gas pipeline, and a control unit, characterized in that the dispenser is made in the form of a flowmeter, an electromagnetic valve and an ejector connected in series with the pipelines the latter being connected via pipelines to a high pressure gas pipeline and an odorized gas pipeline. 2. The gas odorizer according to claim 1, characterized in that it is additionally equipped with an emergency tank, the inlet and outlet of which are connected by pipelines to the odorized gas pipeline, and the outlet pipeline is equipped with an electromagnetic valve, a control valve and a dropper located in series on it.