SU648795A1 - Device for prevention of hydrate formation - Google Patents

Description

The invention relates to devices for metering a liquid into a gas stream and is intended for use at gas industry facilities in order to prevent hydrate formation, for example in gas pipelines, impulse line devices, by introducing an inhibitor (for example, methanol directly into a gas stream). A device for supplying a hydrate formation inhibitor is known, comprising a tank (methanol), a fitting for filling the methanol, a balance pipe, a pipe for supplying liquid to the gas pipeline. Methanol is installed above the pipeline and filled with inhibitor. The upper part of the tank (methanol beds) communicates with the tube for supplying the liquid to the gas pipeline through the equalizing tube, whereby a reduced pressure is not created in the tank above the liquid when it is consumed. At the inhibitor in the tank, under its own weight, the inhibitor supply pipe enters the gas pipeline and is picked up by the gas flow. The amount of inhibitor supplied to the gas pipeline is regulated by valve 1. However, such a device does not provide an accurate dosage of the inhibitor, and therefore does not ensure its constant consumption. It is also known a device for preventing the formation of a hydrate, made in the form of two chambers interconnected by means of overflow and equalizing pipes with a check valve 2. This device, although it provides a constant flow rate of the inhibitor, cannot automatically disable the input of the inhibitor. The purpose of the invention is to provide automatic shutdown of the inhibitor input. This is achieved by placing a hydraulic cylinder parallel to the non-return valve on the overflow pipe, the cavities of which are connected to the overflow and equalizing pipes. The drawing shows the proposed device, a longitudinal section. The device contains an upper chamber 1 (methanol tank) equipped with a fitting 2 for filling it with an inhibitor, and a level gauge 3. Chamber 1 communicates with the lower chamber 4 by means of overflow 5 and equalizing 6

tubes, an inhibitor supply tube 7 is placed in the lower chamber 4, having an annular thickening 8, on the side surface of which a horizontal opening is provided for installing a removable insert 9 in it.

The insert 9 is designed as a sleeve with a calibrated orifice 11 and a channel 12 communicating respectively with the lower part of the lower chamber and the inhibitor supply tube.

A hydraulic cylinder 13 is placed on the overflow pipe 5, in the casing of which the piston 14 is located, and the over piston and sub piston cavities are connected to the equilibrium overflow pipe by pipes 15 and 16. The lower end of the balance pipe is brought into the gas space of the lower chamber 4 and is equipped with a spring-loaded spring 17 with a non-return ball valve 18. A pipeline 15 provides a parallel connection of the hydr cylinder 13 with a non-return valve 18. The device is connected to the gas pipeline 19 by means of a valve 20, and the overflow pipe is equipped with a valve Lem 21. The device works as follows. The inhibitor is poured into the upper chamber 1 through the fitting, while filling control is carried out along the length of meter 3. Next, stop valves 20 and 21 are opened sequentially, and gas from the gas pipeline 19 flows into the lower chamber 4, then into the overflow tube 5, and further into The cylinder of the cylinder 13. The piston 14 of the cylinder 13 under the pressure of the gas moves to the left and opens the way for passage through the overflow pipe 5 of gas and the inhibitor to the upper 1 and lower 4 chambers, respectively. In this case, the inhibitor passes through the filter and fills the lower chamber to the level of the overflow of the overflow pipe 5. Through the calibrated opening 11 of the interchangeable insert 9, the inhibitor enters the inhibitor supply pipe 7 and into the gas pipeline 19. With a sharp decrease in pressure in the gas pipeline 19, , for example, when purging a gas pipeline, ha under the influence of a pressure difference

Claims (2)

between the upper part of chamber 1 and chamber 4 through equalizing tube 6 and tube 5 enters the cavity of hydraulic cylinder body 13 and acts on piston 14 and non-return ball valve 18. However, due to the fact that ball valve 18 is equipped with a spring 17, the piston will first move 14, and the overflow tube 5 will overlap. 5. The supply of the inhibitor to the lower chamber will stop. After the piston 14 of the hydraulic cylinder 13 moves to the extreme right position, the tube b - tube 5 creates a pressure sufficient to overcome the resistance of the spring 17. As a consequence, the valve (ball) 18 will move to the right and open the gas outlet to the chamber 4, and then to the gas line 19. The gas to the gas line will continue until the pressure in the system of the upper chamber - the lower chamber is equal. When the pressure in the pipeline is increased, which will occur when it is stopped and after being connected to the pressure network, the device automatically starts up. Automatic shut-off of the inhibitor injection into the gas pipeline creates savings in the absorbent, improves the working conditions and improves its performance. The invention The device for preventing hydrate formation, made in the form of two chambers interconnected by an overflow and equalizing pipe with a non-return valve, characterized in that, in order to automatically disconnect the inhibitor input, a hydraulic cylinder of a cavity is connected in parallel with the overflow valve to the overflow pipe equalizing tubes. Sources of information taken into account in the examination 1. Reference book on the transport of flammable gases. Ed. K.S. Zarembo, M., 1962. 2. USSR Authorship number 545871, cl. G 01 F 15/02, 1975.