SU866154A1 - Flow-through sampler - Google Patents

Description

(54) FLOW SAMPLE

Claims (1)

The invention relates to a technique for investigating boreholes (oil, gas, geothermal, etc.), in particular, for taking deep fluids and dissolved gases. In the process of testing and operation of wells, it is necessary to accurately determine the content of acidic components (hydrogen sulfide, carbon dioxide) in reservoir waters, which is especially important when searching for, exploring and developing hydrogen sulfide-containing hydrocarbons, searching for sulfur, etc. The sampler is known for selecting acidic components, the main elements which are a cylindrical housing with a piston, lower and upper valves, and a lever operated device. Before the sampler is lowered into the well, a certain amount of the appropriate reagent for chemical bonding of the acidic component is poured into its receiving chamber (through the bottom valve). This position is fixed by check. At the depth of sampling, a command is cut off from the surface by a check, causing the piston to move upward and through the lower gravity valve. The valve sucks in the formation fluid, the acidic component of which reacts with the chemical placed to form stable salts, while the released dissolved gas is removed from the chamber. through the upper nipple valve. An analysis of the precipitate formed allows the total content of the acid component to be found in npo6e {lj. This sampler has the following disadvantages. The fluid sample is in dynamic equilibrium with the waters surrounding the column: as the sampler rises to the surface, pulsating gas emissions with the fluid through the upper valve and the loss through the lower valve occur. Also known is the flow sampler PD-ZM of the Safonovsky plant 38 Teplokontrol, which is designed to extract formation fluid and dissolved gas from boreholes. The sampler consists of a hollow body made in the form of a solid pipe, a rod connected to the lower and upper valves, and a locking device mounted inside the body that allows the rod and rod to be firmly attached to the well in order to keep both valves open in the well. J position. The disadvantage of a refined sampler is that, due to the end-to-end flushing of its chamber during the descent of the device into the well, it is not possible to place the binding chemical in the open form in the well, which reduces representativeness of the sample. The purpose of the invention is to increase the representativeness of the samples taken due to the chemical bonding of acidic components. The goal is achieved by the fact that the sampler is equipped with a chuck with a crest fixed in the housing made in the form of two coaxially arranged sleeves that form an annular cavity blocked from the bottom by a krppka, the lid is installed on the harness and spring-loaded relative to the latter, and the inner sleeve of the fuser is located coaxial with thy. FIG. Figure 1 shows the flow through sampling design, section; in fig. 2 shows a section along the line A-A in FIG. 1. The sampler consists of a hollow body 1 with a sampling chamber 2, in which the cartridge 3 is rigidly mounted, executed in the form of coaxially arranged sleeves 4 and 5, through which passes 8, connecting valves 7 and 8, fixed to it with spring-loaded bracket 9 cartridge 3. The sleeves 4 and 5 form an annular cavity 10 for the reagent solution for binding the acidic components. Works sampler as follows. Before lowering the sampler into the well, a certain amount of the reagent solution is poured into the cavity 10 of the cartridge 3 to chemically bind the corresponding acidic component. Then, the valve 7 is opened, as a result of which, the tractor 6 moves towards the cartridge 3 and closes it with the aid of the crutch 9. In this position, the sampler is lowered to the sampling depth, where the valves are closed by command from the surface. When performing this operation, the thrust of 6 will move to the side opposite to the cartridge 3 and, carried away by the krppka 9, will open the cavity 10 of the cartridge 3, as a result of which the binding reagent will begin to flow into the receiving chamber 2, which will be facilitated by the inertial forces arising during the rapid rise sampler, and bind acidic components. The use of the proposed sampler will improve the accuracy of determining the content of acid gases in reservoir fluids and will allow the use of a simple, widely implemented in the practice of research, serial sampler. In addition to the scientific and industrial effect obtained by increasing the accuracy of determining the concentration of acidic components, a direct economic effect will also be expressed in that the equipment of serial samplers by the proposed device eliminates the need to manufacture special expensive instruments. The invention has a flow-through sampler, comprising a hollow body with a sampling chamber and a rod connected to the upper and lower valves through a locking mechanism, characterized in that it is rigidly fixed in the body in order to increase the representativeness of the samples being sampled by chemical bonding of acidic components. a chuck with a lid made in the form of two coaxially arranged sleeves that form an annular cavity filled with a solution of a reagent for connecting the acidic components and which is closed at the bottom which, with the krgaps installed on the tractor and spring-loaded relative to it, and the cartridge's inner sleeve is located coaxially with the thrust. Sources of information taken into account in examination 1, USSR Copyright Certificate No. 177376, C, E 21 V 49/02, 1965 2, Sampler with PD-ZM clockwork. Instructions for use. Smolensk, 1961, p. 3-7 (prototype).