RU2307283C2 - Method of and device for emptying damaged section of product line - Google Patents

Abstract

FIELD: pipeline transport.

SUBSTANCE: invention can be used for emptying faulty section of product line from liquefied hydrocarbon gases. Part of liquefied hydrocarbon gas is taken by pump from sound section of product line, part of said gas is throttled and delivered as active flow to input of main liquid ejector, and other part is directed at high pressure as active flow to input of auxiliary ring ejector installed before main liquid ejector. Ejected liquefied hydrocarbon gas from faulty section of product line and liquefied gas used as passive flow at input of auxiliary and main ejectors is pumped, together with active flow, into sound section of product line by means of topping up pump. Device for implementing the method is furnished additionally with cock-regulator providing possibility of throttling of flow directly before main liquid ejector and delivery of part of flow to input of auxiliary ejector at high pressure.

EFFECT: provision of recovery, reduced losses of liquefied hydrocarbon gas at emptying faulty section of product line.

3 cl, 3 dwg

Description

The invention relates to pipeline transport and can be mainly used to empty a portion of the product pipeline of liquefied hydrocarbon gases.

It is known that at present, the problem of emptying a damaged section of a product pipeline is solved by means of branch lines connected to the input and output of shut-off valves located along the route of the product pipeline.

The disadvantage is that the discharged mass of liquefied hydrocarbon gases through these lines is fed to the flare and burned.

There is also a known method of emptying a section of a pipeline (see patent 2079766, 1997), which consists in the fact that a separator and an inert gas are used to displace the oil product.

The disadvantage is the inability to use for emptying a section of the product pipeline from liquefied hydrocarbon gases.

The closest technical solution to the intended one is the technical solution (see Uporov NG, Ekarev SB Dredging projectiles and pumping units. - M .: Higher school. - 1974. - S.93-94), used to improve the operating mode of the soil pump, in which the device is used in the form of a ring ejector. The ejector creates not only additional vacuum, but also an additional pressure in the suction pipe itself.

The disadvantage is the inability to dispose of the oil product and reduce losses during emptying of the emergency section of the product pipeline.

The purpose of the invention is to increase the efficiency of the method by ensuring the utilization and reduction of losses of liquefied petroleum gas from the emergency section of the product pipeline when emptying.

This goal is achieved by the fact that liquefied hydrocarbon gas is taken from the undamaged section of the product pipeline, a part of which is throttled and fed as an active stream to the inlet of the main liquid ejector, and another part of the selected liquid with high pressure is sent as an active stream to the inlet of the auxiliary ring ejector, installed in front of the main liquid ejector, while the ejected liquefied petroleum gas from the damaged section of the product pipeline and used in the role of the passive stream at the inlet of the auxiliary and main ejectors is pumped with the booster pump along with the active stream into the undamaged section of the product pipeline. A device for implementing the method, including a bypass product line and an auxiliary annular ejector, characterized in that the device is additionally equipped with a crane regulator that allows throttling of the flow directly in front of the main liquid ejector and supplying part of the flow to the input of the auxiliary ejector with high pressure.

Figure 1 shows a connection diagram of a device for emptying a section of a product pipeline; figure 2 - the node of the main liquid ejector, indicated by the number 5; figure 3 - node auxiliary annular ejector, indicated by the number 6.

The device includes an undamaged section of the product pipeline 1, an isolating shut-off valve 2, a damaged section 3, a pump 4, a main liquid ejector 5, an auxiliary annular ejector 6, a booster pump 7, a plunger 8, shut-off valves 9, a flow control valve 10, outlet lines 11 and branch line 12.

The device operates as follows.

Liquefied hydrocarbon gas (active stream) from an intact product pipeline 1 is pumped simultaneously by pump 4 to the auxiliary ejector 6 with the valve 2 closed and valve 9 open and the main liquid ejector 5. In this case, liquefied hydrocarbon gas is extracted from the damaged section of the product pipeline 3 due to ejection (passive flow). The active flow through the pump 4 enters the main liquid ejector 5 and the annular ejector 6 and then the booster pump 7 enters the undamaged section of the product passage. Filling before starting the site mounted on the by-pass lines 11 is carried out using a plunger 8, through which air is preliminarily displaced. The discharge line 12 provides the flow of ejected fluid to the input of the main liquid ejector 5.

To accelerate and efficiently empty the product pipeline section, pumping out liquefied hydrocarbon gases can be performed from the beginning and end of the damaged section. At the same time, the sampling and injection of liquefied hydrocarbon gases is carried out from the undamaged section located at the opposite end of the damaged section.

The advantage of the proposed device is the simplicity of design, the possibility of rapid installation and commissioning. The creation and use of such devices will not only reduce the loss of this hydrocarbon feed, but also prevent air pollution and speed up repair work.

Claims (2)

1. A method of emptying an emergency section of a product pipeline, including an undamaged section of a product pipeline, discharge lines connected to the input and output of a shut-off valve, characterized in that liquefied hydrocarbon gas is taken from the undamaged section of the product pipeline, a portion of which is throttled and fed as an active stream to the main inlet liquid ejector, and the other part of the selected fluid with high pressure is sent as an active stream to the input of the auxiliary annular ejector, setting ennogo before the main fluid ejector, the liquefied petroleum gas ejected from the damaged portion of product pipeline and used as a passive flow at the inlet of the auxiliary and main ejector via the booster pump is pumped together with the active stream in an undamaged portion of product pipeline. 2. A device for implementing the method, including a bypass product line and an auxiliary annular ejector, characterized in that the device is additionally equipped with a crane regulator, which allows throttling of the flow directly in front of the main liquid ejector and supplying part of the flow to the input of the auxiliary ejector with high pressure.

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