SU1149136A1 - Gas sampler - Google Patents

Abstract

1. A GAS PROTECTOR, having a sampling conduit, a flow booster with suction and discharge nozzles, a storage tank, a sample collector and connecting pipelines, characterized in that, in order to increase the reliability of the sample containing impurities of hydrocarbons, the storage tank is made in the form of a calibrated tube and a chamber connected to it, the chamber is equipped with a pressure driver located inside it, a flow rate driver is connected to a pressure driver, at L / f this chamber is connected to a suction m spouting agent consumption. 2. The sampler according to claim 1, characterized in that the pressure booster is made in the form of an elastic container. (Y)

Description

four;;

;ABOUT

:

05

The invention relates to mining, in particular to the sampling of gases from wells under pressure, and degassing gas pipelines, and can be applied for: detection and monitoring the development of underground fires using a method based on the determination of coal temperature by the ratio of ethylene and acetylene.

A gas sampler is known, having a flow rate booster, piping and a sample receiver in the form of a Seger burettes L.

A disadvantage of this device is the low reliability of the sampled samples of ethylene and acetylene micro-impurities, especially in those cases when the wells (gas pipeline) are under vacuum. This is due to the fact that the gas pressure in the Seger buret is below atmospheric pressure, as a result of which the concentration of ethylene and acetylene is different from the actual one. In addition, the subsequent transfer of the sample from the collection to the gas analyzer may further distort it due to the sorption of ethylene and acetylene on the burette wall, the process of prolonged (more than 1 hour) storage and transportation, as well as by contacting the gas mixture with working liquids the process of pumping it from a burette to a gas analyzer.

A gas sampler is also known, having a sampling conduit, a flow booster, a storage tank, a sampling bin and connecting conduits.

The introduction of the storage tank into the circuit allows to equalize the sample pressure to atmospheric pressure by supplying the surrounding air 2J to it,

The disadvantages of the known device are the distortion of the concentration of the sample components due to their dilution with atmospheric air in the storage tank, the dependence of the concentration of the components on the atmospheric pressure, the distortion of the concentration of trace contaminants due to their sorption on the walls during long-term residence of the sample in the collection and when the gas mixture in contact with the working fluids subsequent transfer of the sample to the gas analyzer, as well as the complexity and inconvenience of transportation and long-term preservation

collection of samples of a large volume of gas, usually required for the analysis of micronutrients of ethylene and acetylene in the mine atmosphere with modern gas analyzers.

The purpose of the invention is to increase the reliability of the sample containing impurities of hydrocarbons.

The goal is achieved by the fact that in a gas sampler that has a pipeline for taking a sample, a flow booster with suction and discharge nozzles, a storage tank, a collection tank and connecting pipes, the storage tank is filled in the form of a calibrated tube and a chamber connected to it, the pressure driver located inside it, the flow driver, is connected to the pressure driver, and the chamber is connected to the suction port of the flow driver. In addition, the pressure booster is designed as an elastic container.

The drawing shows a functional diagram of the proposed device.

The sampler consists of a flow booster 1, to the suction inlet of which chamber 2 is connected. Within the latter there is a pressure booster in the form of an elastic chamber 3 connected via pipelines 4-6 and taps 7 and 8 to the discharge port and suction nozzles of the flow inducer. Calibrated to chamber 2 tube 9, which together with the camera performs the role of an accumulating capacitor. Calibrated tube 9, acting together with the camera as an accumulating bone. The calibrated tube 9 is connected in parallel with the pipeline 10 and a collection of II samples, made in the form of a U-shaped tube filled with an absorbent, such as activated carbon, modified with a 1.5% polymer methylene ester additive. Tubes 12 and 13 are installed at pipeline 10 and collection of 11 samples. Valves 14 and 15 are installed between the flow rate booster and the chamber. Pressure control in chamber 2 is controlled by means of a pressure gauge 16. The discharge pipe of pressure pusher 1 is connected to the atmosphere via valve 17,

The device works in the following way.

Claims (2)

1. GAS SAMPLER, having a sampling pipeline, flow inducer with suction and discharge nozzles, accumulators SU ,, 1149136 extension piping, characterized in that, in order to increase the reliability of the sample containing hydrocarbon impurities, the storage tank is made in the form of a calibrated tube and a chamber connected to it, the chamber is equipped with a pressure inducer located inside it, the flow inducer is connected to the inducer pressure, while the chamber is connected to a suction ¹ '' - flow inducer nozzle. 2. The sampler according to claim 1, characterized in that the pressure inducer is made in the form of an elastic container.