SU137862A1 - Formation tester - Google Patents

Description

Testing tools are known that determine the qualitative and quantitative parameters of the formations.

However, with existing tools, some formation parameters are not determined accurately. So, for example, the magnitude of the compressive loads perceived by the bottom hole and tested by the turbo-drill bit, is determined using the weight indicator on the tension of the fixed end of the wire rope. This method does not always give the true value of the compressive loads perceived by the bottom hole and the lower part of the tool, since part of the weight of the drilling tool perceived by the walls of the well cannot be taken into account. This error is especially great at great depths, when the curvature of the wells reaches significant values.

The proposed formation tester differs from the known ones in that the hydraulic time relay chamber communicates with a depth gauge, by means of which the true compressive load experienced by the face, the testers located in close proximity to the face, and the lower part of the drill pipe is determined when testing the formation .

The design of the tester also provides the possibility of using it to determine the parameters of the reservoir.

FIG. Figure 1 shows schematically the position of the tester to determine the true loads experienced by the filter shank, packer, bottom and bottom of the drill pipe when testing the formation for inflow regardless of the loads perceived by the well walls; in fig. 2 is the same when determining the compressive loads during drilling; in fig. 3 shows the test in longitudinal section.

The tester consists of adapter /, cylinder 2, thrust shaft 3, o-rings 4, stem 5, cone 6, holder 7, hydraulic

No. 137862- 2 chambers 8, rings 9, tubes 10, sleeves 11, adapter 12 and pressure gauge 13,

The tester can be in a stretched (normal) and compressed position due to the fact that parts, 3, 5, 6, 7, 10 and 13 can be moved relative to parts 2, 4, 9, nor 12.

When compressed, the inlets M (Fig. 3) are open, and the formation fluid can flow through the tester. In the extended position, the inlets are in the upper position in the sleeve 11, and the passage of fluid through the tester is not possible.

A hydraulic time switch, consisting of a cone 6, a holder 7 and a hydraulic chamber 8 filled with a special fluid, prevents the tester from instantly squeezing and opening the inlet ports 14 during the descent of the tool into the well. This is achieved by compressing the cone 6 into the holder 7 and the liquid under it flows upward along the helical capillary groove formed between the coius and the holder and creates a significant hydraulic resistance decelerating the movement of the rod 5 downwards.

When the compressive force caused by a short-term tool landing is removed, the tester is stretched to the stop of the barrel 3 in the upper area of the cylinder 2 under the weight of the tool below, while the cone 6 moves several millimeters away from the holder 7 and the hydraulic fluid the camera quickly flows from top to bottom along the wide annular gap between the cone and the yoke. In this way, a hydraulic time relay during tool lowering prevents the opening of the inlets 14, which open only a few minutes after the tool reaches the bottom, under the compressive load of the weight of the pipes. During this time, the depth gauge 13 fixes the true compressive load. In the same way, compressive loadings are recorded during landings during tripping operations.

The design of the tester also makes it possible to determine the true compressive loads perceived by the formation tester and the tools in close proximity to it. This is achieved by the fact that the hydraulic chamber 8 communicates with the tube 10 and the depth gauge 13. The pressure value recorded by the pressure gauge multiplied by the cross-sectional area of the hydraulic chamber 8 gives a true compressive load.

Subject invention

A formation tester with a hydraulic time relay, characterized in that, in order to determine the load on the bottomhole during drilling and testing of the formation, as well as formation parameters, the hydraulic time relay chamber is connected by a tube to a depth gauge mounted on the rod.