SU1670475A1 - Device for sampling from gas-liquid flow at a borehole mouth - Google Patents

Abstract

The invention relates to a device for sampling from a gas-liquid stream used in the gas industry, in particular in gas condensate, hydrochemical and corrosion well field research conducted during the entire life of gas and gas condensate deposits and fields. The purpose of the invention is to reduce costs in the selection of representative samples. The device for sampling includes a temperature-controlled separator 1, a receiving 2 and two sampling 3 and 4 chambers, the first one contains a separation valve 5, and the two subsequent ones have safety drain pipes 6 and 7. 1 sludge.

Description

The invention relates to devices for sampling from a gas-liquid stream used in the gas industry, in particular, in gas field condensate, hydrochemical and corrosive well surveys conducted during the entire life of gas and gas condensate deposits and fields.

The purpose of the invention is to reduce costs in the selection of representative samples.

The drawing shows a device for sampling.

The device includes a thermostatic separator 1, a reception chamber 2 and two sample chambers 3 and 4, the first contains a separation valve 5, and the next two have safety drain pipes 6, 7 and a tube 8. The gas-liquid flow enters through the inlet valve 9, and the separated gas escapes through the valve 10. The separation pressure is controlled by these valves, and measured by a pressure gauge 11. The separation temperature is measured by a thermometer using a thermowell 12, and the regulation of the separation temperature and temperature control is always device manufactured using a sealed heat exchange jacket 13. Sampling device and purging is performed through the valves 14 and 15.

The device works as follows.

The gas-liquid flow from the well, entering the separator 1, is separated into liquid and gas phases. The liquid phase from the separator 1 enters the receiving chamber 2, where it is divided into components. From the receiving chamber 2, a heavier fluid (for example, water) enters the sampling chamber 3, and a lighter fluid (for example, condensate) enters the sampling chamber 4. This is achieved by using valve 5 (for example, a float), which designed for ascent with heavy in the receiving chamber

liquids (for example, water) and for immersion in the presence of a light liquid (for example, condensate) in the receiving chamber. Thus, the heavy liquid enters the sampling chamber 3, and it is easy through the perforated openings of the upper part of the receiving chamber to the sampling chamber 4.

The fluids entering the sampling chambers 3 and 4 accumulate to the level of insertion of the safety pipes 6 and 7, which serve to discharge excess volumes through the tube 8 and the valve 10 into the gas pipeline.

The presence of safety drains 6 and 7 allows, regardless of the ratio of heavy and light (for example, water and condensate) fluids, to accumulate and make a selection of their representative samples.

Sampling is performed in standard samplers through valves 14 and 15.

The separation pressure is established on the pressure gauge 11 by means of valves 9 and 10, based on the research program. The temperature regime of separation is set using a thermowell 12 and a heat exchange jacket 13.

The application of the invention will dramatically reduce the cost of sampling from the gas-liquid flow and improve their quality and representativeness.

Claims (1)

Invention Formula A device for sampling from a gas-liquid stream at the wellhead, including a thermostatted separator, characterized in that, for the purpose of reduction. costs in the selection of representative samples, the device is equipped with a receiving chamber and two sampling chambers, moreover, a separation valve is installed in the receiving chamber, and the sampling chambers are equipped with safety drain pipes.