RU2108489C1 - Mobile set for pumping out gas from disconnected section of gas mainline (versions) - Google Patents

Abstract

FIELD: gas supply systems; emergency repair and maintenance of separate sections of gas mainlines. SUBSTANCE: set has blower consisting of compressor with gas-turbine drive, and ejector. Low- pressure space of ejector is placed in communication with disconnected section of gas mainline to be emptied. Two design versions of set are available. In set of first design version high-pressure nozzle of ejector is connected with compressor output, and compressor input and ejector output are connected with sections of gas line in operation. In set of second design version output of ejector is connected with input of compressor, and high-pressure nozzle of ejector and output of compressor are connected with sections of gas line in operation. EFFECT: enlarged operating capabilities. 2 cl, 2 dwg

Description

 The invention relates to mechanical engineering, in particular, to gas pumping units, and can be used in the maintenance and preventive repair of sections of main gas pipelines.

 Known pumping unit [1], in which the output of the liquid-gas ejector is connected to the separator by means of an additional pump. To ensure the maximum required gas injection pressure, the mixture from the ejector is sent to the pump, which compresses the mixture to the maximum required pressure.

 Also known pump-ejector installation [2], for the utilization of associated petroleum gases, the compression of gas in which is carried out in a liquid-gas ejector.

 The disadvantage of these installations is the need for a separator, from which part of the liquid will inevitably be carried away with the gas stream, which when pumping a large amount of gas from a low-pressure tank to a high-pressure gas pipeline will require a significant flow of liquid.

 As a prototype, a gas pumping unit [3] was taken, which contains a compressor machine for transporting gas with suction and discharge pipelines, a drive engine using transported gas as fuel, and support systems.

The main disadvantage of this device when using it for pumping gas from a repaired section of the gas pipeline is that during compression in the compressor machine, because of the need to increase the pressure by 4-6 times, the gas heats up very much, T heating 150-200 ^o C. Since the anticorrosion coating the gas pipeline does not allow gas with a temperature above 60 ^o C to be pumped into the pipes, then a cooling system must be installed behind the compressor machine, which will consume significant power and have large dimensions together with the compressor you and the mass.

 The indicated drawback makes the task of creating on this basis a mobile complex of acceptable performance for pumping gas from a disconnected section of the main gas pipeline practically impossible.

 The aim of the invention is a mobile installation for pumping gas from a disconnected section of a gas pipeline of increased compression ratio and reduced weight and dimensions.

 The goal is achieved in that in the proposed device to achieve an acceptable compression ratio of the supercharger without a significant increase in the temperature of the pumped gas, a combination of a compressor and a gas ejector is used. Moreover, as shown in figure 1, the high-pressure nozzle of the ejector is connected to the outlet of the compressor, the inlet of which is connected to a working branch of the gas pipeline. The low-pressure cavity of the ejector is connected to the pumped-off section, and the outlet from the supercharger behind the ejector is connected to the working section of the gas pipeline.

 The same goal can be achieved by placing the ejector in front of the compressor by connecting the supercharger elements to the gas pipeline sections, as indicated in FIG. 2.

 The installation works as follows (figure 1).

Part of the gas from the working gas pipeline 6 enters the compressor 2, driven by a gas turbine engine 3. The compressor increases the gas pressure by 1.3-1.4 times (for example, from 75 to 100 kgf / cm ² with heating at 30 ^o C) and delivers it to the high-pressure nozzles of the ejector 4. The low-pressure cavity of the ejector 4 is connected by a gas duct to the pumped-out section 1 gas pipeline 6, and the ejector exit with a working gas pipeline 5.

The gas mixture 5 is supplied with a mixture of gases from the gas pipeline 6 and from the pumped-out section 1. The temperature of the mixture exceeds the gas temperature in the working gas pipeline by less than 30 ^o C, therefore, cooling is not required.

Another arrangement of the installation is possible (FIG. 2) when the gas ejector precedes the compressor. The nozzle of the ejector 4 receives gas from a working gas pipeline with a pressure of, for example, 75 kgf / cm ² , and the low-pressure cavity of the ejector is connected to the pumped-out section 1. The mode of operation of the ejector is adjusted so that the output pressure is not lower than 56 kgf / cm ² . Then the compressor 2 with a degree of pressure increase of 1.3-1.4 will be able to pump this gas into a working gas pipeline with a pressure of 75 kgf / cm ² .

 The proposed device can significantly reduce the dimensions and weight of the installation by eliminating the bulky gas cooling systems necessary to lower its temperature behind the supercharger before pumping it into the gas pipeline, and, therefore, mobile units of this purpose can be made more compact, with less material consumption and cost, and also more passable in off-road conditions.

Claims (2)

 1. Mobile installation for pumping gas from a disconnected section of the main gas pipeline, including a supercharger, suction and discharge pipelines, characterized in that the heater consists of a compressor and a gas ejector, the low-pressure cavity of which is connected to the pumped-out section, high-pressure nozzles of the ejector are connected to the compressor outlet, and the compressor inlet and outlet from the ejector are connected to sections of the working gas pipeline.  2. A mobile installation for pumping gas from a disconnected section of the main gas pipeline, including a supercharger, suction and discharge pipelines, characterized in that the supercharger consists of an ejector and a compressor, the low-pressure cavity of the ejector being connected to the pumped section, the outlet of the ejector is connected to the inlet to the compressor, and high-pressure nozzles of the ejector and the compressor outlet are connected to sections of the working gas pipeline.

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