SU1357750A1 - Method and device for sampling liquid surface microlayer - Google Patents

Abstract

The invention relates to methods and devices for obtaining and preparing samples of a surface micro-layer of liquid solutions to verify their chemical composition and allows for improving the precision of the selection of a surface micro-layer of a liquid. The device contains a compressor 2 and an impactor 7, the inlet of which is connected to a closed tank 5, inside of which is located the lower part of the aerator 4, and an air-cleaning filter 8 is installed at the top. Pre-fill the sample into a closed container, create a stream of air bubbles by passing air through the aerator, and the resulting aerosols with a total mass equal to half the surface micro-layer of the liquid in the tank, are subjected to inertial separation into fractions by size at a rate exceeding the flow rate in zdushnyh bubbles in the container. 2 sec. f-ly, 1 ill. (p (L with JV sd

Description

The invention relates to methods and devices for obtaining and preparing samples of surface micro-layer of liquid solutions for the study of their chemical composition.

The purpose of the invention is to increase the precision of the selection of the surface micro-layer of a liquid and to expand its functionality.

The drawing shows a device for implementing a method for sampling a surface micro-layer of a liquid.

A device for carrying out the method of sampling the surface micro-layer of seawater 1 consists of a compressor 2, the discharge outlet of which is connected to the duct 3, the free end of which is combined with the aerator 4 placed in the lower part of the internal volume of the tank 5, the internal volume of which is connected through the connecting tube 6 with impactor 7, the outlet of which is connected to the suction inlet of compressor 2. In the upper part of tank 5 there is an air purifying filter 8. Compressor 2 is equipped with a distribution outlet valve 9. Impactor 7 consists of series-connected cascades, each of which has an inlet nozzle 10 and a collector plate 11. At the exit of the last cascade, an aerosol filter 12 is placed. Each subsequent cascade of impactor 7 is distinguished by a smaller nozzle diameter 10 compared to the previous one. The tank 2 on top is equipped with a removable cover 13.

The method is carried out as follows.

Seaworthy seawater 1 on the vessel's run (not shown) from its bow is lifted with the help of a clean container in the amount of 3-5 liters and poured into the tank 5 through its removable lid 13, after which the latter is hermetically sealed. After that, the compressor 2 is turned on, which creates the operating mode of the air flow in the impactor 7 and supplies air to the aerator 4 through the air duct 3. The distribution outlet valve 9 is adjusted so that the missing air flow in the system is compensated for by self-suction of atmospheric air through the air cleaning filter 8. The velocity of the air flow through the aerator 4 is adjusted so as to create a stream of bubbles with a diameter of 0.1-1 m-m. The bubbles, exploding on the surface of seawater 1, form aerosols that are entrained by the flow of air through the connecting tube 6 to the first stage of the impactor 7, where the largest particles of aerosols collect on the collector plate 11, since the flow rate in the impactor 7 on the first stage is very low .

Non-seeding air flow aerosols in the impactor 7 to other

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cascades where progressively smaller particles are collected on collector plates. The smallest particles corresponding to the surface microlayer of water with a thickness of 0.5 µm are captured on the aerosol collection filter 12. After a predetermined time interval during which the total mass of samples deposited on the collector plates 11 and the aerosol collection filter 12, reaches a value equal to or slightly less than half the mass — the surface micro-layer of seawater 1 in the specified reservoir 5 (as determined by calculation, outcome from the geometry of tank 5, and it is checked experimentally), the compressor 5 is turned off and samples are prepared for the study of the chemical composition on highly sensitive spectrophotometers or by methods of neutron activation analog out. Capturing the aerosol impactor 7 is necessary for capturing and separating

They are determined by the size fractions, which makes it possible to judge the dependence of the chemical composition of the surface micro-layer on its thickness.

Obtaining samples of aerosols with total

5 with a mass of not more than half the mass of the surface micro-layer of water in the said closed container is necessary to eliminate the possibility of the ingress of bulk water with aerosols.

0 The proposed method and device allows sampling of the surface micro-layer of seawater in any weather and at any speed of the carrier vessel. In this case, it becomes possible to use an IM factor, which will make it possible to study the dependence of the chemical composition of the surface microlayer of seawater on its thickness, and excluding the ingress of bulk water into the aerosol samples leads to an increase in the accuracy of determining the chemical composition of the surface microlayer of the liquid.

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Claims (2)

1. The method of sampling the surface micro-layer of liquid, including the creation the flow of air bubbles in the test liquid by passing air through the aerator and trapping aerosols formed when bubbles emerge on the surface of the liquid, characterized in that, in order to increase the precision of the release the surface micro-layer of liquid and the expansion of operational capabilities; a previously investigated liquid sample is poured into an isolated container, and aerosols formed during the exit of air bubbles on the surface of the liquid the total mass equal to half of the surface micro-layer of the liquid in the tank is subjected to inertial separation into fractions by size with a speed exceeding .. 1357750l 3tt. the current flow rate of air bubbles of the surface microlayer in the tank. liquid and device functionality, it is equipped with a closed 2. A device for sampling on the surface of a tank with an air-cleaning filtration microfluid of a liquid, including 5 rums, through which it is communicated compressor with distribution valve, with atmosphere, the aerator is located inside an injection outlet of which is connected to the lower part of the tank, and an air duct with an aerator, and a device for collecting aerosols, is made to collect aerosols, which is different from the impactor, whose input is connected to so that, in order to increase the precision of the upper part of the closed container.