RU2649438C1 - Device for collecting samples of oil from water surface - Google Patents

Abstract

FIELD: sampling devices.

SUBSTANCE: invention relates operation of sampling devices for assessing the degree of pollution of natural reservoirs by petroleum products. Device comprises two parts: a positive buoyancy cutter with a detachable plug in the head and a separatory funnel of considerable volume. Positive buoyancy of the cutter is provided with a float along the circumference of the cutter, which has a petal shape in section. Cutter plug comprises a swirler in the form of Archimedes screw to organize the spiral movement of the solvent from up to down and increase the degree of oil washout from the inside of the cutter. Solvent mixture is transferred to the separatory funnel with the cut off oil by creating a vacuum in the separatory funnel by using an AM-5 aspirator.

EFFECT: invention provides the increased accuracy of determining the thickness of the oil layer above the water due to a two-stage supply of the solvent into the oil layer above the water and hermetic transfer of their mixture into a separatory funnel.

3 cl, 1 dwg, 1 tbl

Description

A device for sampling oil from a water surface relates to the field of operation of sampling devices for assessing the degree of oil pollution of natural water bodies. The method is used to estimate the scale of an accidental spill of an oil product above the water surface of a lake, river or sea, and is also applicable to estimate the percentage of oil in the production of highly watered oil wells after taking a volumetric sample of well fluid with a volume of 1-3 m ³ .

Known tubular dipstick, consisting of a sampling through-pipe and a guide rail with raw plastic clay at the end, acting as a cutoff fluid in the pipe (Vasilevsky V.N., Petrov A.I. Well Research Operator. - M .: Nedra, 1983 . - S. 104). The use of the device requires fixing the guide rail in the area of the reservoir, and this complicates the selection of environmental samples, especially in marshy areas.

A known sampler for assessing the thickness of the oil layer above water according to the patent of the Russian Federation No. 2534791, publ. 12/10/2014. The device consists of a cylindrical thin-walled case with a conical transition in the upper part to the measuring part. The device provides for the possibility of supplying an organic solvent from the measuring part to the housing and transferring the resulting reagent and oil solution to the measuring part using a vacuum pump.

This device has the following technical disadvantages. Firstly, a surface wave is often present in open water bodies and it is very difficult to keep the sampler at the same level when performing difficult technological operations for feeding the solvent, closing one of the two taps and taking the sample to the measuring part. Secondly, the device does not provide for active mixing of the solvent supplied from above with a layer of oil, which is cut off by the device body. Thirdly, the oil layer above the water can be significant, and then the volume of the mixture of oil and solvent does not fit in the measuring part of the device.

Closest to the proposed technical solution is the RF patent for the invention No. 2623412 (publ. 06/26/2017), according to which the cut-off of the oil layer above water has autonomous buoyancy, into the cavity of which an organic solvent is fed in a cyclic mode to reduce the viscosity of oil. With a piston pump, the oil and solvent solution is also taken out of the cutter in a cyclic mode and discharged into a separate separatory funnel. Tests of this device showed the following two drawbacks: firstly, the piston pump has a relatively small volume of 150 cm ³ , so you have to use it repeatedly in the mode of accumulation and discharge of liquid into a separatory funnel. Secondly, collecting a solution of oil with a needle with a small area cut is a time-consuming procedure. During this time, a certain amount of light hydrocarbons evaporate from the solution, therefore, the accuracy of estimating the thickness of the oil layer above water decreases. It is necessary to increase the accuracy of estimating the thickness of the oil layer above water and at the same time simplify the procedure for taking a liquid sample.

An object of the invention is to provide a device in which there are advantages of both inventions for No. 2534791 and No. 2623412 and their disadvantages are absent. The new device should provide higher accuracy in estimating the thickness of the oil layer above water at any thickness. In addition, selection should be made in a shorter time.

The technical task is performed by the fact that in the device for sampling oil from a water surface containing an oil cut-off above water with autonomous buoyancy and a pump for supplying solvent to the oil, the cut-off in the conical head has a removable plug with a hermetically integrated tube with two shut-off valves, one of which serves to supply an organic solvent to the cutoff cavity, and the second is connected by a transparent and flexible tube with a separatory funnel, in the cavity of which a vacuum is created using an aspirator - a pump long-acting with the aim of transferring liquids from the cutter to the separatory funnel.

To organize the spiral-like movement of the organic solvent along the inner surface of the conical head and the cutter, flushing and dissolving the adhered oil in the cork of the conical head of the cutter, a swirler is installed in the form of an Archimedes screw.

To give positive buoyancy, the conical head of the cutter contains a float of a petal shape, a distinctive feature of which from the torus are its smooth forms. This provides less accumulation of oil on the outer surface of the cutter.

The device diagram is shown in the figure, where it is indicated: 1 - surface water body, 2 - oil layer above water, 3 - cut-off with a conical head, 4 - float-shaped float, 5 - rubber stopper, 6 - swirl, 7 - solvent supply valve, 8 - valve for transferring liquid from the cutter to the separatory funnel, 9 - separating funnel, 10 - flexible and transparent tube for transferring the liquid from the cutter to the separatory funnel, 11 - pump for creating a vacuum (AM-5 aspirator), 12 - connecting gas pipe , 13 - rubber tube with two tubes .

The device is used in the following order:

1. Cutter 3 with a built-in petal float 4 with an open neck, that is, without plug 5, is carefully lowered into the oil layer 2 above the reservoir 1. Thanks to the float, the device is afloat in the volume of oil and water in the conical part of the cutter.

2. Through an open neck with a needle (tube) in a layer of oil serves a fixed volume of organic solvent and mix them to reduce the viscosity of the oil.

3. The shutoff neck is closed with a rubber stopper. The valve 7 is closed, the valve 8 is opened, and using an aspirator 11, a vacuum is created in the separatory funnel (DV), that is, the pressure is below atmospheric.

4. A solution of oil with reduced viscosity flows through a tube 10 into a separatory funnel. When free water appears in the lower part of DV 9, valve 8 is closed and valve 7 is opened.

5. Through the valve 7 and swirler 6 using a piston pump (50 cm ³ medical syringe), a fixed volume of organic solvent is supplied to the inner surface of the cutter in order to flush the adhered oil from the surface of the cutter.

6. The cycle of paragraph 3 is repeated to transfer the solvent with residual oil to a separatory funnel.

7. Checking for the presence of residual oil and solvent in the cutter 3 is carried out by the fact that the separatory funnel 9 with the contents is removed from the rubber stopper 13, closed with the other with an airtight stopper and delivered to the laboratory for measurements. To cork 13 connect another dividing funnel with a smaller volume - empty and clean. Aspirator 11 re-creates a vacuum in the test engine and, if only water enters the engine, it is concluded that all oil and solvent have been removed from the cutter.

The cutter is removed from the reservoir, washed with a clean solvent, wiped dry with a clean cloth and reused to measure the thickness of the oil layer at the next point of the oil slick or in the next bulk well sample.

Here are the results of the application of the claimed method in a laboratory assessment of the thickness of the oil layer above water. A layer of oil was created in a vessel of a transparent polymer by pouring on the water surface the required volume of oil of medium viscosity - 24 mP⋅s. They created a layer of oil above water with a thickness of 3 mm and carried out instrumental measurements using two methods:

- according to the claimed method;

- according to the invention No. 2623412.

The measurement results are shown in table 1.

The claimed method performs the technical task with a high degree of accuracy due to the proposed innovations (distinguishing features):

1. The transfer of a mixture of oil and solvent into a separatory funnel is carried out in two cycles and in a closed, sealed volume, so the loss of light hydrocarbons from oil and solvent is excluded. When using invention No. 2623412, the selection of oil with a solvent takes place over many cycles with the cutter open, so some light hydrocarbons are lost by evaporation into the atmosphere.

According to the invention No. 2534791, only a single supply of solvent is allowed into the cavity of the cutter, since the calibrated pipette 6 as a dividing funnel initially contains the solvent, and then is filled with the mixture from the cutter. Therefore, the factor of complete closure according to the invention No. 2534791 does not provide the positive effect that is in the present method, namely, the transfer of a mixture of oil and solvent from the cutter to the separatory funnel is carried out in a sealed mode in two or more cycles (if necessary).

2. According to the invention No. 2534791, the cutter has a fixed conical head with bends, therefore, the solvent can be supplied only to the surface of the oil, the inventive method provides for the possibility of feeding the solvent into the volume of the oil layer above water and its active mixing with the oil, followed by selection of the mixture in an enclosed space. Thus, according to the invention, the principle of a selective approach to each technological operation is realized by organizing a removable plug of a significant diameter in the head of the cutter.

3. According to the invention No. 2534791, one of the valves (faucet 4) serves to pass air, while according to the claimed device, both valves serve to move liquids. Due to this, a complete washing of the internal cavity of the cutter from oil particles is achieved, and this leads to an increase in the accuracy of measurements.

4. The petal-shaped float provides faster preparation of the cutter for the following measurements due to the fact that the smooth shape of the outer surface reduces the amount of adhered oil.

The tests showed that the proposed device exceeds the characteristics of these prototypes and, in fact, is most likely the final version of a series of devices for determining the thickness of the oil layer above water.

Claims (3)

1. A device for sampling oil from a water surface, containing a cutoff oil above water with autonomous buoyancy and a pump for feeding solvent into the oil, characterized in that the cutter in the conical head has a removable plug with a hermetically integrated tube with two shut-off valves, one of which serves to feed an organic solvent into the cutter cavity, and the second is connected by a transparent and flexible tube with a separatory funnel, in the cavity of which a vacuum is created using an aspirator - a single-acting pump with the purpose of transferring liquids from the cutter to the separatory funnel. 2. The device according to claim 1, characterized in that a swirl in the form of an Archimedes screw is installed in the plug of the conical head of the cutter to organize the spiral-like movement of the organic solvent along the inner surface of the conical head and cutter, flushing and dissolving the adhered oil. 3. The device according to p. 1, characterized in that for imparting positive buoyancy the conical head of the cutter contains a float of a petal shape, a distinctive feature of which from the torus are its smooth forms.

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