SU866438A1 - Device for sampling liquid from pipeline - Google Patents

Description

(54) DEVICE FOR SELECTING SAMPLES OF LIQUIDS

one

The invention relates to samplers for sampling liquids from oil pipelines and can be applied, in particular, when the water-gas-liquid mixture transported via the oil pipelines is used.

A device for taking samples from a pipeline is known, which includes a sampling tube installed along the diameter of the pipeline and having openings arranged along the height of the pipe. The axes of the orifice are perpendicular to the axis of the pipeline, the sampler is placed in the pipeline and attached with a flange to the nozzle. A fluid sample is taken from the stream through the CO openings.

The lack of a known device makes it impossible to obtain reliable samples due to clogging of the through-holes and high flow resistances in the inlet holes of the sampling element. FROM PIPELINE

A device for sampling a liquid from a pipeline is known, which includes a sampling element with a hole for the entrance of a liquid and a nozzle for sampling. The sampling element is connected to the collector and placed in the pipeline. The length of the sampling element is equal to half the diameter of the pipeline. A sample is taken from the flow through the hole in the sample "About the sampling element", from there it enters the collector and is discharged into the sample container TZ}.

A disadvantage of the known device is that in order to obtain commercial samples, the sampler must be installed in a vertical section with an upward flow in order to eliminate the effect of gravitational forces. It is often impossible

Claims (2)

20 because. There are no vertical sections with upward flow in the pipelines from the wells. There are upstream sections on the bypass line 3 of the group metering unit, Sputnik. Taking into account that the wells from group measuring installations are located at different distances (up to 1500 m) and the terrain is crossed, the sample of produced fluid selected by the sampler in the vertical section of the bypass line will be unreliable, since during the transportation of the products of the well through the oil collection pipeline The separation of gas-oil-water emulsion will occur, and in the reduced areas, detached from reservoir water will accumulate, uneven portions coming to the group replaceable unit. For sampling on the horizontal section of the pipeline, you need to install two samplers to meet each other. When sampling a liquid, in this case it is necessary to take a separate sample through each sampler. In the process of moving the gas-water emulsion along the horizontal section of the pipe, in the laminar flow regime, separation will occur. Since the portions of the liquid will not be taken at the same time and from different layers of the emulsion, the sample will be unreliable. The purpose of the invention is to increase the representativeness of the sample and the reliability of the device. The goal is achieved by the fact that in a device for sampling fluid from a pipeline, which includes a sampling element with a liquid inlet and a sampling nipple, the sampling element is made in the form of a hollow cylinder placed throughout the cross section of the pipeline and connected to both ends of the mixer, the opening for the entrance of the fluid and the shape of two equally large pairs of bol connected to each other by the truncated ends of the same q Mbi in the middle of the sample of the selected element and expressed by the equation x-2Py, where P is half the alignment lines of the parabolas and are determined from the equality a - 20. Q is the amount of fluid passing through the sampling element necessary to obtain a reliable sample per unit of time; R is the radius of the pipeline; to- average flow rate. FIG. 1 schematically shows a device for sampling fluid from a pipeline; FIG. 2 - sampling element. The device includes a sampling element 1 with a shaped slit 2 with a height equal to the internal diameter of the pipe, installed vertically through the holes in the pipe 3 towards the flow. From the outer side, the sampling element 1 is fastened to the body of the pipe 3 by welding, squares 4 are screwed onto the threaded ends of the sampling element, the squares 4 are screwed to the other ends, and the figure-shaped pipes 5 of the same length and shape are screwed into the other ends. The connection point of the pipes 5 is the mixer 6. fia mixer 6 is screwed along the thread at the other end of the valve 7 with the drain pipe 8. In the claims for calculating the shape of the hole, the parabola x 2Py equation is given, in which the parameter p is determined from the equality Pa and the radius pipeline; P is half the parabolic overlap line (AF); average flow rate; the amount of fluid passing through the sampling element necessary to obtain a reliable sample per unit of time. The law and the left part of the equality are the area of the truncated parabola. The left part of the equality is obtained by solving the integral o, P with r - the focal length of the parabola (OF). From pipe 3, equal fluid sections through the figure 2, calculated according to the velocity diagram for the laminar mode of the cross section, enter sample element 1, from where, through the shaped nozzles, 5 portions of the liquid flow into the mixer 6, where two equal-volume portions of the liquid are mixed, taken from the entire section of the pipe 3. From the mixer 6, the mixed liquid passes through the valve 7 to the drain nozzle 8, from where the sample portion Is discharged into the discharge container. Using a device with a shaped slot in the sampling element with a mixer will allow you to select equal portions of liquid from the entire pipe section, regardless of the degree of flow separation in the pipeline and the insertion point of the device and significantly increase the reliability of samples by the percentage of water from produced oil, which will improve the quality oil due to more control over the percentage of water. The sampler is easy to manufacture and operate, its accuracy is not affected by its insertion point on the pipeline. The claims of the device for sampling liquids from a pipeline, including a sampling element with an opening for the inlet of a liquid and a nozzle for sampling, characterized in that, in order to increase the representativeness of the sample and the reliability of the device, the sampling element is made in the form of a hollow cylinder placed throughout the cross section of the pipeline and connected to both ends of the mixer, and the opening for the entrance of the liquid has the form of two equal parabolas connected to each other by truncated ends of the same length in the middle of the sampling element and expressed by the equation x 2ru where P is the half line of the parabolic overlap and is determined from the equality: Q is the amount of liquid passing through the sampling element necessary to obtain a reliable sample per unit of time; R is the radius of the pipeline; si average flow rate. Sources of information, rintye taken into account in the examination 1. The author's certificate of the USSR 397803, cl. G 01 N 1/10, 1972. 2. Authors certificate of the USSR 634152, cl. G t) 1 N 1/10, 1977. 0ag./