RU60609U1 - DEVICE FOR DOSED CHEMICAL REAGENT FEEDING - Google Patents

Abstract

The proposal relates to the oil and gas industry, in particular to devices for the dosed supply of liquid reagents into oil or gas pipelines or wells. A device for dosed supply of a liquid reagent includes a container for a chemical reagent with a hollow drain reagent line for supplying a chemical reagent to the cavity of the product pipeline, a gas storage chamber for supplying it from the cavity of the product pipeline to the container for the chemical reagent, a gas pipeline with a pressure differential stabilizer made in the form of a separate partition with calibrated hole located in the upper part of the gas pipeline. The partition is installed with the possibility of moving over a distance, providing a constant column of chemical reagent for hydraulic resistance to the bubbles of the pop-up gas, and a siphon with an outlet pipe, in which the partition with a calibrated hole is also installed with the possibility of forced movement. The gas storage chamber is made in the form of a vertical cylindrical tank, in the middle of which a siphon is located. The siphon is made in the form of transverse sealed upper and lower partitions with a hollow sleeve concentrically mounted relative to the cylindrical tank. The sleeve is sealed relative to the lower partition connected to the upper part of the pipeline. The middle part of the gas storage chamber below the outside of the hollow sleeve is connected to the chemical reagent tank with a hollow drain reagent line, and the inner space of the hollow sleeve is communicated with the product line with an outlet pipe directed downward through the lower partition. The upper end of the gas pipeline is located above the siphon, and the internal space of the gas pipeline above the partition inside it is filled with a process liquid (for example, oil) of height h. The height of the h-column of the process fluid in the gas pipeline is controlled by the location of the partition in the gas pipeline. The cavity of the gas storage chamber located above the upper siphon wall and the upper end of the gas pipeline are in communication with the upper part of the chemical reagent tank. The proposed device is compactly and easily mounted on the product pipeline, and eliminating the ingress of gas and condensate released from the pumped product in the product pipeline into the chemical reagent tank during operation of the device allows you to accurately meter the flow of chemical reagent into the product pipeline. 1 ill. for 1 liter

Description

The proposal relates to the oil and gas industry, in particular to devices for the dosed supply of liquid reagents into oil or gas pipelines or wells.

A device for the dosed supply of a chemical reagent (RF patent No. 20744950, MKI 6 E 21 B 43/00, publ. 04/21/1992), including a container for a chemical reagent with a hollow drain reagent line for supplying a chemical reagent to the cavity of the product pipeline, a gas storage chamber with calibrated hole.

The disadvantage of this device is the dependence of the amount of supply of the reagent, that is, the less reagent, the faster it flows.

The closest in technical essence is a device for the dosed supply of a liquid reagent (RF patent No. 2153383, IPC 7 E 21 B 37/06, F 17 D 1/16 publ. In. Bulletin No. 36 dated 12/27/2000), including a container for a chemical reagent with a hollow drain reagent line for supplying a chemical reagent to the cavity of the product line and a gas storage chamber for supplying it from the cavity of the product line to the tank for the chemical reagent, while it is equipped with a gas line with a differential pressure stabilizer made in the form of a separate partition with calibrated a hole located in the upper part of the gas pipeline, and the partition is installed with the possibility of moving to a distance that provides a constant column of reagent for hydraulic resistance to the bubbles of the pop-up gas, and the hollow drain reagent pipe is made in the form of a siphon, in the output part of which the partition with the calibrated hole is also forced to move .

The disadvantages of this device are:

- firstly, gas and condensate released from the pumped product in the product pipeline during the operation of the device rises up and enters the tank for the chemical reagent, which negatively affects the accuracy of the dosed chemical reagent;

- secondly, the complexity of mounting the device on the product pipeline, since the siphon and gas pipeline are located inside the tank for a chemical reagent.

The objective of the utility model is to simplify the installation of the device on the product pipeline and to prevent the ingress of gas and condensate released from the pumped product in the product pipeline into the chemical reagent tank during operation of the device.

The problem is solved by a device for the dosed supply of a chemical reagent, including a container for a chemical reagent with a hollow drain reagent line for supplying a chemical reagent to the cavity of the product pipeline, a gas storage chamber for supplying it from the cavity of the product pipeline to the container for the chemical reagent, a gas pipeline with a differential pressure stabilizer made in in the form of a separate partition with a calibrated hole located in the upper part of the gas pipeline, the partition being installed with the possibility of changing distance over the distance, providing a constant column of chemical reagent for hydraulic resistance to the bubbles of the pop-up gas, and a siphon with an outlet pipe, in which a partition with a calibrated hole is also installed with the possibility of forced movement.

What is new is that the gas storage chamber is made in the form of a vertical cylindrical tank, in the middle of which there is a siphon made in the form of transverse sealed upper and lower partitions with a hollow sleeve concentrically mounted relative to the cylindrical tank, which is sealed relative to the lower partition connected to the upper part gas pipeline, while the gas accumulation chamber below the outside of the hollow sleeve is in communication with the chemical reagent tank with a hollow drain reagent pipe, and inside three hollow bushings - with the product pipeline, the outlet pipe directed downward through the lower partition, the upper end of the gas pipeline located above the siphon, and the internal space of the gas pipeline above the partition in it is filled with process liquid of height h, while the cavity of the gas storage chamber located above the upper the siphon walls and the upper end of the gas pipeline are in communication with the upper part of the chemical reagent tank.

The figure shows the proposed device for the dosed supply of a chemical reagent.

A device for dosed supply of a liquid reagent includes a tank 1 for a chemical reagent with a hollow drain reagent line 2 for supplying a chemical reagent to the cavity of the product pipeline 3, a gas storage chamber 4 for supplying it from the cavity of the product pipeline 3 to the tank 1 for a chemical reagent, gas pipeline 5

differential pressure stabilizer, made in the form of a separate partition 6 with a calibrated hole 7 located in the upper part of the gas pipeline 5.

The partition 6 is installed with the possibility of movement over a distance that provides a constant column of chemical reagent for hydraulic resistance to the bubbles of the pop-up gas, and a siphon 8 with an outlet pipe 9, in which the partition 10 with a calibrated hole 11 is also installed with the possibility of forced movement.

The gas storage chamber 4 is made in the form of a vertical cylindrical tank, in the middle part of which a siphon 8 is located.

The siphon 8 is made in the form of transverse sealed upper 12 and lower 13 partitions with a hollow sleeve 14 concentrically mounted relative to the cylindrical tank.

The sleeve 14 is sealed relative to the lower partition 13 connected to the upper part of the gas pipeline 5.

The middle part of the gas storage chamber 4 at the bottom outside of the hollow sleeve 14 is connected to the chemical tank 1 with a hollow drain reagent pipe 2, and the inner space of the hollow sleeve 14 is connected to the product pipe 3 with an outlet pipe 9 directed downward through the lower partition 13.

The upper end of the gas pipeline 5 is located above the siphon 8, and the internal space of the gas pipeline above the partition 6 located in it is filled with process liquid 15 (for example, oil) of height h.

The height of the h-column of the process fluid in the gas pipeline 5 is controlled by the location of the partition 6 in the gas pipeline 5.

The cavity of the gas storage chamber 16, located above the upper partition 12 of the siphon 8 and the upper end of the gas pipeline 5 is connected to the upper part of the tank 1 for the chemical reagent through the outlet 17

The device operates as follows.

With closed valves 18 and 19, through the cover 20 fill the tank 1 with a chemical reagent, which must be dosed into the product line 3. Then close the cover 20 of the tank 1 and open the valve 19 and fill the gas storage chamber 4 above the siphon 8 with process fluid 15. Then, with the valve open 19, the process fluid located in the gas storage chamber 4 above the siphon 3 is drained. After that, the valve 19 is closed, while in the gas pipeline 5 above its partition 6 there remains a column of process liquid 15 of height h.

Then open the valve 18, while in the established mode, gas from the pumped product accumulates under the lower partition 13 of the siphon 8 and through the gas pipe 5 through the calibrated hole 7 of the partition 6 and then through the cavity 15 of the gas storage chamber 4 and the outlet 17 enters the tank 1, where it is located chemical reagent. The calibrated hole 7 is designed in such a way as to allow only gas to pass through and at the same time not to allow liquid to pass through due to surface tension forces.

The partition 6 from the upper end of the gas pipeline 5 is lowered to a constant height - h, as a result, above the partition 6 in the gas pipeline 5 there is always a constant column of process fluid, providing constant hydraulic resistance of the bubble of the pop-up gas and playing the role of a pressure differential stabilizer. The gas bubbles entering container 1 displace the chemical reagent through the hollow drain reagent line 2 to the siphon 8. In siphon 8, the chemical reagent rises upward in the outer space of the hollow sleeve 14 and reaches the upper baffle 12 of the siphon 8 and enters the interior of the hollow sleeve 14 through the outlet pipe 9, through the calibrated hole 11 of the partition 10 located in it, enters the product pipe 3.

Changing the distance - b, you can set the necessary parameters for the supply of a chemical reagent.

The proposed device is compactly and easily mounted on the product pipeline, and eliminating the ingress of gas and condensate released from the pumped product in the product pipeline into the chemical reagent tank during operation of the device allows you to accurately meter the flow of chemical reagent into the product pipeline.

Claims (1)

A device for dosed supply of a liquid reagent, including a container for a chemical reagent with a hollow drain reagent line for supplying a chemical reagent to the cavity of the product pipeline, a gas storage chamber for supplying it from the cavity of the product pipeline to the container for the chemical reagent, a gas pipeline with a differential pressure stabilizer made in the form of a separate partition with a calibrated hole located in the upper part of the gas pipeline, and the partition is installed with the possibility of moving over a distance, providing f a constant column of chemical reagent for hydraulic resistance to bubbles of a pop-up gas, and a siphon with an outlet pipe, in which a partition with a calibrated hole is also installed with the possibility of forced movement, characterized in that the gas storage chamber is made in the form of a vertical cylindrical tank, in the middle part of which siphon made in the form of transverse sealed upper and lower partitions with a hollow sleeve concentrically mounted relative to the cylindrical tank , which is sealed relative to the lower partition connected to the upper part of the gas pipeline, while the gas storage chamber below the outside of the hollow sleeve is in communication with the chemical reagent container with a hollow drain reagent pipe, and inside the hollow sleeve with the product pipe, an outlet pipe directed downward through the lower partition, the upper the end of the gas pipeline is located above the siphon, and the internal space of the gas pipeline is higher, the partition inside it is filled with process fluid, while the chamber cavity Gas accumulations located above the upper siphon wall and the upper end of the gas pipeline are connected to the upper part of the chemical tank.