RU2534791C1 - Sampler for assessment of oil layer thickness above water - Google Patents

Abstract

FIELD: oil and gas industry.

SUBSTANCE: sampler for assessment of oil layer thickness above water contains the thin-wall, transparent vertical housing from the material, not wetted with oil and oil products. The housing is made without bottom and has a constant by altitude the internal cross-section area and sharp edge in the bottom part. In the top part the housing is conically narrowed and connected to the branch with the flexible shape, to which two valves are connected: side - for air discharge and central - for liquid discharge. To the central valve the calibrated pipette is connected, which in turn is connected to the two-way pump.

EFFECT: measuring of thickness of oil layer during the short period of time with applicable precision for technologies of express analysis.

3 cl, 2 tbl, 1 dwg

Description

The device relates to a device for sampling liquid from oil and water from a process vessel or natural reservoir contaminated with oil products. The device is used to assess the oil and water content in the production of highly watered wells, as well as to determine the scale of an emergency oil spill over water.

Known sampler direct-flow principle of operation, having a sampling cylinder, lower intake and upper exhaust valves (AS USSR No. 1693433, CL G01N 1/10. 1991). The product is used to take water samples from the required depth of the reservoir or capacity, but its design does not allow to cut off a cylindrical column of liquid from the surface of the reservoir to establish the thickness of the water layer contaminated with oil products.

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 . - P.104). The device requires fixing the guide rail on the surface of the reservoir, and this complicates the selection of environmental samples, especially in marshy areas.

A device for determining the thickness of a layer of oil above water according to the patent of the Russian Federation No. 2267765, publ. 01/10/2006. The device consists of a cylindrical thin-walled case with a cone valve in the lower part and a mechanism for lowering a heavy ball in the upper part. The presence of ball joints and floats complicates the manufacture and operation of the product, increasing the duration of washing the device from oil and preparing it for the next measurement. The second disadvantage is that part of the oil when passing into the device from the bottom up remains on the inner surface of the device to the valve seat.

Closest to the proposed technical solution is a sampler for determining the thickness of the oil layer above water according to the patent of the Russian Federation No. 2452933, publ. 06/10/2012. The device consists of a cylindrical thin-walled case with a cone valve in the lower part, and the position of the overlapping ball in the sampler is regulated using a fishing line. When taking a layer of oil with high viscosity, part of the oil will remain on the walls of the sampler, therefore, analysis of the sample by the oil and water content must be carried out in the physicochemical laboratory.

An object of the invention is to create a product that allows you to get the final result in the form of the volume of the selected oil and the thickness of the oil layer above the water directly at the point of sampling. To solve this problem, it was proposed to dilute the cut-off layer of oil with a solvent of known volume, transfer the resulting mixture with a small volume of underlying water into a calibrated pipette, that is, implement two principles: cut off a layer of oil of a limited volume and transfer this volume to a state convenient for research, in particular, reduce it viscosity.

According to the invention, the technical task is performed by the fact that the sampler for estimating the thickness of the oil layer above water, containing a thin-walled, transparent vertical casing made of a material that is not wetted by oil and oil products, is made so that the casing without a bottom has a constant internal cross-sectional area and a sharp edge in the lower part, in the upper part, the body is conically narrowed and connected to a flexible-shaped outlet, to which two valves are connected: lateral - for air passage and central - for liquid passage, to the central a calibrated pipette is attached to the crane, which in turn is connected to a double-acting pump. To reduce the viscosity of the oil that is cut off and located in the body of the sampler, a fixed volume of oil solvent is preliminarily placed in a calibrated pipette, followed by feeding the solvent into the oil using a pump. The solvent should not enter into a chemical reaction with oil so that the volume of the mixture of solvent with oil is equal to the sum of the volumes of oil and solvent.

The body of the sampler surpasses the calibrated pipette in terms of internal cross-section in order to increase the representativeness of the sample of a thin layer of oil above water when measuring its volume in the mixture with the solvent and transferred to the measuring pipette.

The device of the sampler is shown in the drawing attached to the application, where 1 is a body, usually cylindrical, 2 is a sharp edge of the body, 3 is a flexible outlet with two taps, 4 is a side valve with a vertical outlet for air passage, 5 is a central valve for liquid pass, 6 - calibrated pipette, 7 - double-acting pump (piston pump), 8 - fixed volume oil solvent.

The sampler is used as follows.

1. The liquid tap 5 is closed, a fixed volume of oil solvent V _p type of BR-1 gasoline is placed in a pipette 6 (2).

2. The piston of the pump 7 is withdrawn to the upper position and connected to the pipette 6.

3. The side (air) valve 4 is opened and the sampler is slowly and vertically lowered through the oil layer above the water, thereby cutting off the limited volume of oil V _n by the housing 1.

4. The central valve 5 is opened and the pump 7 transfers the entire solvent to the housing 1 for mixing with oil. To mix oil with a solvent, body 1 needs to make several circular motions.

5. After obtaining a homogeneous and mobile mixture of oil with solvent, the housing 1 is lowered even lower so that the resulting mixture reaches outlet 3.

6. The side valve 4 is closed.

7. Using pump 7, the mixture of oil and solvent with a small volume of underlying water is transferred to pipette 6 by creating a vacuum between the pump and the liquid. After holding for several minutes, the volume of the mixture of oil and solvent V _cm is determined visually by the upper edge of the mixture and by the boundary between the mixture and water.

8. The volume of oil in the housing 1 is defined as the difference between the volumes of the obtained and measured mixture and solvent:

9. The thickness of the oil layer above the water at the point under study is defined as the ratio of the oil volume V _n to the internal cross-sectional area F of housing 1:

10. The sampler is removed from the reservoir, washed with a clean solvent, wiped dry with a rag 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.

The information obtained is used to estimate the volume of oil above water. In particular, when assessing the composition of the produced well products using a sampler, the proportion of oil and water is estimated. Such primary information is always important for daily routine monitoring of the operation of the well and the oil reservoir, and also allows you to correctly evaluate the effectiveness of various geological and technical measures.

We conducted field tests of the proposed device for assessing the accuracy of measurements using the claimed sampler. A layer of oil of a certain thickness above the water surface was created by pouring the calculated amount of oil on a limited water surface of a known area. In three experiments, the actual oil layer thickness above water was 2.6 mm, respectively; 5.0 mm or 8.2 mm. In all three cases, the volume of added BR-1 (2) brand solvent was the same and equal to 15 ml. The results obtained during the measurements are shown in table 1.

Table 1 The results of evaluating the thickness of the oil layer above the water Constant values: Solvent volume V _p = 15 cm ³ Case area F = 8.38 cm ² Actual oil layer thickness δ _f , mm The values measured during the experiments Relative measurement error ξ,% The volume of the mixture of oil and solvent in a pipette V _cm , cm ³ The volume of oil V _n cm ³ The thickness of the oil layer δ _ISM , mm 2,5 32.6 17.6 2.1 16,0 5,0 53.5 38.5 4.6 8.0 8.2 78.7 63.7 7.6 7.3 Average measurement error 10,4

The relative measurement error is determined by the formula

To assess the degree of influence of the addition of an organic solvent to the viscosity of the oil, the volume, density, and viscosity of mixtures of oil and gasoline BR-1 (2) were measured in various proportions (Table 2).

table 2 Parameters of oil and solvent mixtures at 20 ° C Experience Number The volume of oil V _n cm ³ The volume of solvent BR-1 (2) V _p , cm ³ The actual volume of the mixture V _cm , cm ³ The density of the mixture, kg / m ³ The viscosity of the mixture, cSt one one hundred 0 one hundred 880.0 27.97 2 80 twenty one hundred 817.9 7.58 3 60 40 one hundred 783.3 2.02 four fifty fifty one hundred 776.6 1.86 5 40 60 one hundred 748.4 1.84 6 twenty 80 one hundred 716.4 0.91 7 0 one hundred one hundred 685.0 0.80

According to table 2 shows the following:

1. The initial viscosity of the oil with the addition of solvent is significantly reduced, in particular, when the ratio of volumes 1 to 1 (experiment No. 4), the viscosity decreases 15 times from 28 to 1.86 cSt. These data confirm the need and effectiveness of the use of the solvent in the proposed sampler to achieve a more complete transfer of the oil layer cut off by the housing 1 above water into a calibrated pipette 6.

2. The actual volume of the mixture is equal to the sum of the volumes of oil and solvent, which makes it possible to determine the volume of oil as the difference between the volumes of the mixture obtained and the solvent.

In the claimed invention, the representativeness of the selected and evaluated samples (average relative error in the range of 10-11%) is achieved due to three factors that together form the novelty of the device:

- the sampler limits the oil layer above water in a limited area without violating its integrity;

- viscous oil is brought into a more fluid state by adding a solvent;

- the body of the sampler significantly exceeds the calibrated pipette in terms of internal cross-sectional area, so even a layer of oil above water of a small size, transferred to a calibrated pipette, will have a significant - representative thickness.

The device fulfills its goal - the thickness of oil above water is estimated directly at the sampling point with an acceptable error.

Technical and economic efficiency from the use of a sampler consists of the possibility of timely decision-making in 2 directions:

1. According to the assessment of the profitability of operation of high-water wells.

2. According to the assessment of the volume of accidentally spilled oil on the surface of a natural reservoir: river, lake or sea surface.

Claims (3)

1. A sampler for assessing the thickness of the oil layer above water, containing a thin-walled, transparent vertical casing made of a material that is not wetted by oil and oil products, characterized in that the casing without a bottom has a constant internal section height and a sharp edge in the lower part, at the top parts of the body are conically narrowed and connected to a flexible-shaped outlet to which two valves are connected: lateral - for air passage and central - for liquid passage; a calibrated pipette is attached to the central valve, which I, in turn, is connected to the double-acting pump. 2. The sampler according to claim 1, characterized in that the calibrated pipette is made with the possibility of preliminary placement of a fixed volume of oil solvent and subsequent supply using a pump of solvent in oil. 3. The sampler according to claim 1, characterized in that the body of the sampler exceeds a calibrated pipette in terms of internal cross-sectional area.

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