SU960451A1 - Bed for investigating pulsations of liquid injected into coal bed - Google Patents

Description

. The invention relates to the mining industry and is used to study the hydraulic characteristics of a submersible fluid pressure pulse generator. . A fluid pressure sensor is known, containing a thin-walled cylinder, measuring and temperature compensating tensors G1 3. However, the known sensor does not allow to measure pressure pulses with a frequency of more than 60% Hz, which limits its scope. Closest to the invention is a stand for studies of pulsating injection of water 1 into a coal seam containing data recording equipment, pressure gauges for measuring pressure and. retaining pressure, borehole model, made in the form of a metal pipe and fitted on the end side with a drain fitting and retaining throttle, a sealer at the mouth of the well model communicated by means of a high-pressure hose with a pump station, a pressure sensor with a deformable element, and measuring and thermal compensating G2 strain gauges. The disadvantage of this test bench is the insufficient accuracy of measuring the parameters of the effect of pressure pulses on the well model, due to the remoteness of the deformable element of the sensor from the object under study. The purpose of the invention is to improve the measurement accuracy of the parameters of the effect of the injected fluid on the well model due to the use of the latter in a deformable pressure sensor element. The target is achieved by the fact that in the stand, the pipe is complete with an external annular groove, on the surface of which the measuring strain gauges are mounted, and provided with cantilever ribs on which

Thermocompensation strain gauges are placed. .

FIG. 1 shows a schematic diagram of the stand; in fig. 2 - squawkka model, incision. The stand for studies of pulsations of fluid injected into the coal seam contains a pumping station 1, connected by high-pressure hoses 2 with a tank 3, a retaining throttle 4, a drain fitting 5 of model 6 of the well 6 and each with a mash 7 ust 8 of the model of well 6.

To measure the pressure and subsurface pressures, the stand is equipped with pressure gauges 9 and 10. Tenzostandi 11 and Illeifov Osillo graph 12 are electrically connected to the measuring 13 and thermal compensating 14 pressure gauges on the spliced annular groove 15 and the ribs 16 of the well 6 and protected from mechanical effects of the housing 17 .. In the initial position, the hydraulic system of the stand is filled with liquid under a pressure of 0.6-0.8. MPa, which during the operation of the pumping station 1 tsirazuliruet. on the closed system; tank 3, pump station 1, sealer 7 models, wells, well model 6, drain fitting 5, retaining throttle 4 and again tank 3. After turning on pump station 1, fluid under pressure, measured by a pressure gauge 9, is pumped through the sealer well mouth 6 and retaining throttle 4 establish and control the retaining pressure characterizing the integral pressure. pressure in the well model 6. The pressure pulse generated by the pump installation spreads sweat along the well model 6 and periodically deforms the annular groove 15 with the measuring elements 13 that are crossed on it, the resulting imbalance of the isometric bridge assembled from the measuring and thermal compensation elements 13 and 14, the strain gauge 11 is amplified and the tape is loaded with a tape-line oashograph 12 onto a tape, and then decoded.

Laboratory tests of the stand showed that the accuracy of the parameters measured at the proposed stand was 1.2 times higher than the parameters measured at the well-known stand.

Claims (1)

The claims stand for research pulsations injected into the coal seam zhvdkosti comprising a recording apparatus, gauges for measuring the pressure and the retaining pressure, the model of the well, comprising a pipe drain Studer and booster choke encapsulation wellhead model reported vysokonapornsh hose with a pumping station and a dag snip pressure with a deformable element, measured in thermocomments with strain gauges, characterized in that, with a precision of measuring the parameters of the impact on propelling fluid on the well model due to EE use of the latter as a deformable element of the pressure sensor, the pipe is made with an external annular groove, on the surface of which are installed tensile strain gauges, g is provided with ribs that are console mounted above the annular groove, on which thermometers are compensated. Sources of information, BQ attention, at examination, 1, Instruments and stands for testing masks and nodes. Seminar materials. Moscow House of Scientific and Technical Promotion to them. F.E. Dzerzhinsky. Sat 1, M., 1965; with. 77., 2, Safety of work in coal mines. Proceedings VostNII, t. XU, M., Nedra, 1971, p. 176-177 (prototype) -U-VP.