RU67268U1 - SAMPLE CONTAINER - Google Patents

Description

The claimed invention relates to techniques for sampling gases, reaction mixtures and air to control the concentration of moisture, oxygen, nitrogen, hydrogen, helium, carbon oxides, nitrogen oxides, sulfur compounds, hydrocarbons, and other gases, vapors of substances and impurities, as well as can be used to control the content of individual components mainly by physical and physico-chemical methods of analysis.

When analyzing gas mixtures or air from various sources, including laboratory vessels, chemical reactors, pipelines and containers, gas and oilfield devices, sources of oil, gas, steam-hydrothermal sources, it becomes necessary not only to take a sample, but also to store it until analysis.

A device for selection for the subsequent analysis of the so-called "wet gases" - hydrocarbon oil gases in the presence of fog or aerosol or free liquid consisting of hydrocarbons, in the amount of 0-5%. (UK patent No. 2393669 A, IPC B01D 35/02, G01N 1/22, priority from 2002.10.04, publ. 2004.04.07)

The disadvantages of the known device is its narrow scope, complexity in the manufacture and use. This is due to the presence of an adsorbent that requires regeneration after each use, and the inability to use for sampling from sources containing water vapor at elevated temperatures or other gases in a heated state, condensing under normal conditions, for example, hydrocarbons with a point

boiling above 25 ° C, which leads to difficulties in analyzing the composition of the gas due to lower pressure in the device.

A device is also known for determining the concentration of a gas dissolved in a liquid, by the method of liquid degassing and measuring the released gas with a chemical indicator (Russian Patent No. 2181882, IPC G01N 7/14, priority from 2001.01.24, publ. 2002.04.27). The device comprises a chamber with a piston, a measuring pipette with a non-return valve, a gas outlet tube tightly integrated into the piston and equipped with a shut-off device, an indicator and an aspirator for creating a vacuum. With the shut-off device closed, the camera acts as a sampler, and when open, it acts as a degasser of a liquid sample.

The disadvantages of the known device is its narrow scope - exclusively for the allocation of gases dissolved in a liquid, and the inability to use for sampling from gases, as well as sources containing water vapor at elevated temperatures or other gases that condense under normal conditions.

Also known is a sampler designed for sampling of subsurface gas, which is taken as a prototype (Patent of Ukraine No. 75835, IPC G01N 1/22, priority from 2004.12.10, publ. 2006.05.15). The sampler contains a tube with a pointed tip, which is inserted into the subsoil layer, a chamber in the form of a cylinder with a piston connected to the tube by a hose, and a hermetically sealed container with saline solution for storing the sample.

The disadvantages of the known sampler is its narrow scope, limited to sources with pressure close to atmospheric, and the inability to use for sampling from sources of increased

pressure, as well as sources containing water vapor at elevated temperatures or other gases that condense under normal conditions. Another significant drawback of the known sampler is the use of saline solutions, which leads to a change in the qualitative and quantitative composition for gases entering into chemical interaction with saline solutions or with water, also limiting the scope of use of chemically inert gases.

The objective of the invention is to provide a simple, versatile, easy-to-use sampler that simultaneously serves as a container for transportation and temporary storage of samples until analysis suitable for sampling from various sources, including laboratory vessels, chemical reactors, pipelines and containers, gas and oil -field devices, sources of oil, gas, steam-hydrothermal. It is important to solve the problem of maintaining a small excess pressure in the sampler during sampling and transportation of samples that are prone to spontaneous changes in volume and pressure, for example, containing condensing or degassing components.

The problem is solved in that in the sampler - a container for sampling and storing gas samples, including a container for gases and a locking fluid with a device for inputting and sampling, the tank is made in the form of a two-knee U-shaped tube filled with a shut-off fluid to the level of the knee bend with the first knee The U-shaped tube is equipped with an inlet and sampling valve, and the second elbow of the U-shaped tube is equipped with a liquid sampling tube with a two-way valve, a volume filling control chamber with a volume indicator and a droplet splash guard, The gas pressure in the sampler container is balanced by the pressure of the column of shutoff fluid. Besides,

the inlet and sampling valve is made of either silicone, or Viton, or calresa, or other flexible, thermally and chemically resistant material. For this, either dibutyl phthalate, or silicone oil, or another chemically inactive liquid with a vapor pressure below 5.0 × 10 ^-3 Pa at 25 ° C is used as a shut-off liquid. The chamber for filling volume control with the volume indicator is made in the form of a calibrated cylinder and a removable Drop-splash trap is made of permeable chemically resistant material; the liquid sampling tube with a two-way valve is removable, and the U-shaped tube is made of either a metal tube, or glass, or polymer, or ceramic or composite materials.

The technical effect of the claimed invention is to increase the reliability of the device, to increase the reproducibility of the obtained analysis results, the simplicity of manufacture and operation, the wide versatility of use, eliminating the possibility of leakage of gases from the environment. In addition, it is convenient to use a sampler-container during analysis to select gas from sources containing water vapor at elevated temperatures or other gases that condense under normal conditions, as well as degassing liquids.

The inventive device is illustrated by the drawing of figure 1, which schematically shows a sampler-container in a prepared position for sampling, where 1 is the knee of the chamber, 2 is the knee of the chamber, 3 is a shutoff fluid, 4 is a valve for input and sampling, 5 is a sampling tube liquids with a two-way valve, 6 - a chamber for controlling the filling of the volume with a volume indicator, 7 - a droplet-splash trap, 8 - a two-way valve, AA - the level of liquid in the elbow 2.

The device operates as follows.

With the valve 4 open, the sampler-container is filled with shut-off fluid to the lower edge of the shut-off valve 4, and valve 4 is closed. Through the fluid sampling pipe 5, with the tap 8 open, shutoff fluid is taken from the knee 2 to level AA corresponding to the lower edge of the sampling tube pre-installed so that its lower edge is above the level of the knee bend. The valve 8 on the liquid sampling tube is closed, the sampler-container is in a prepared state for operation (Figure 1).

Sampling, for example, from a source of high pressure is carried out by introducing the sample through valve 4, while the liquid is displaced from the knee 1 to the knee 2, the sampling is continued until the locking fluid appears in the chamber for controlling the filling of volume 6, which simultaneously serves as an expansion tank, protects against the ejection of liquid from the device when gas or vapor flows through the liquid layer. An additional safety against liquid discharge is provided by a droplet-splash trap 7. The container filled with sample is ready for transportation and use for gas sampling for analytical purposes.

Further operations for sampling from the sampler-container are carried out using valve 4 both by displacing the sample into the receiver of the analytical equipment, and by taking a gas syringe. Moreover, in knee 1, regardless of the condensation of the vapor and the size of the sampled sample volume, overpressure is automatically maintained due to the pressure of the liquid column in the knee 2.

The choice for the device of a U-shaped container is due, firstly, to the need to maintain excessive gas pressure in the tank under conditions of a possible change in the volume and pressure of the gas, for example, during condensation or

degassing, due to the pressure of the column of the locking fluid, and, secondly, to solve the problem of reducing the excess pressure and excess volume of the sample when collecting the sample, or gas evolution from liquid samples with high gas content during filling, transportation or storage of the device. The presence of a volume filling control chamber with a volume indicator and a droplet-splitter in the device allows solving the problems of controlling the speed and completeness of filling the device, solving the operator’s safety problem when taking a sample, and eliminating uncontrolled discharge of blocking liquid in the form of splashes and drops.

The presence of a fluid sampling tube with a two-way valve allows you to remove the excess amount of shutoff fluid when preparing the device for operation, i.e. leave the locking fluid in the device in an amount sufficient and necessary to completely fill one knee and exclude air from the environment during transportation of the device prepared for sampling to the sampling point when the device is upright (with a possible deviation of the device from the vertical by 15- 30 °). At the same time, the presence of a crane allows not to disconnect the fluid sampling tube from the device after removing the excess amount of shutoff liquid when preparing the device for operation, which facilitates the operator’s work and reduces the time required to prepare the device for operation.

Claims (8)

1. A sampler-container for sampling and storing gas samples, including a container for gases and a locking fluid with a device for introducing and sampling, characterized in that the tank is made in the form of a two-knee U-shaped tube filled to the level of the knee bend with a locking fluid, the first the elbow of the U-shaped tube is equipped with an inlet and sampling valve, and the second elbow of the U-shaped tube is equipped with a liquid sampling tube with a two-way valve, a volume control chamber with a volume indicator and a droplet-splash trap, while Gas pressure in the sampler-container is balanced by the pressure of a column of blocking liquid. 2. The sampler-container according to claim 1, characterized in that the inlet and sampling valve is made of either silicone, or Viton, or calreza or other flexible, heat-resistant and chemically resistant material. 3. The sampler container according to claim 1, characterized in that either dibutyl phthalate or silicone oil or another chemically inactive liquid with a vapor pressure below 5.0 · 10 ^-3 Pa at 25 ° C is used as a shutoff liquid. 4. The sampler-container according to claim 1, characterized in that the volume control chamber with a volume indicator is made in the form of a calibrated cylinder. 5. The sampler container according to claim 1, characterized in that the droplet eliminator is made of a permeable chemically resistant material. 6. The sampler container according to claim 1, characterized in that the liquid sampling tube with a two-way valve is removable. 7. The sampler container according to claim 1, characterized in that the volume control chamber with a volume indicator is removable. 8. The sampler container according to claim 1, characterized in that the U-shaped chamber is made of either a metal tube, or glass, or polymer, or ceramic or composite materials.