RU2188319C2 - Method of control over well processes - Google Patents

Abstract

FIELD: production of oil, gas and similar fluids. SUBSTANCE: method includes lowering of geophysical instrument into well and concurrent installation of highly sensitive recording instrument at external side of wellhead. Results of effect of well processes on geophysical instrument and highly sensitive instrument are recorded. Readings of highly sensitive instrument are calibrated and identified by readings of geophysical instrument. Nomograms and tables for highly sensitive instrument are constructed by readings of geophysical instrument. Then geophysical instrument is removed from well. Well processes are controlled over by highly sensitive instrument. EFFECT: increased range of measured parameters, provided continuous control over well processes, high sensitivity of instruments. 2 cl

Description

 The invention relates to the field of oil, gas, etc. fluids and can be used to control downhole processes.

 A known method of monitoring downhole processes with various devices, for example, samplers, baits, core sampling devices, including sampling in a well, delivering them to the surface and conducting studies using physical, chemical, geological methods (Intenberg S.S., Takhkilgov T.D. Geophysical studies in wells. - M .: Nedra, 1990, p.132-143).

 The main disadvantages of this method are: control of downhole processes by inaccurate indirect methods with obtaining results after a significant period of time; taking measurements on the surface, where the conditions change qualitatively from downhole, which does not ensure the accuracy of the measurements; insignificant range of measured parameters.

 These disadvantages are partially eliminated in another known method adopted for the prototype.

 A known method of controlling downhole processes according to the prototype includes recording on a geophysical instrument the results of the impact of the processes on the elements of the well, namely, the borehole fluid, the column, tubing, the geophysical instrument and other elements of the well, or transmitting the effects to the recording equipment installed at the wellhead (Krivko N.N., Sharovarin V.D., Shirokov V.N. Production geophysical apparatus and equipment.- M .: Nedra, 1981, pp. 8-25, 173-270).

 The disadvantages of the prototype is that, firstly, the range of measured parameters is insufficient, although it is larger than in the analogue; secondly, the control of downhole processes is not continuous and is carried out only at certain intervals; thirdly, the sensitivity of instruments and recording equipment is not always sufficient, since very inertial sensors of pressure, temperature, flow rate, and humidity are used to record the results of downhole processes.

 The technical task of the invention is to remedy these disadvantages.

 The technical result achieved by using the invention is to increase the range of measured parameters, perform continuous monitoring, high sensitivity of the devices.

 The specified technical result is achieved by the fact that in the method for monitoring downhole processes, which includes recording on the geophysical instrument the results of the impact of the downhole processes on the elements of the well or transmitting the results of the impact on the recording equipment at the wellhead, in parallel with the descent into the well of the geophysical instrument on the outside of the wellhead as recording equipment install a highly sensitive device, initially record the effects of downhole processes on geo the physical instrument and the highly sensitive instrument, calibrate and identify the readings of the highly sensitive instrument according to the readings of the geophysical instrument and compile the nomograms and tables for the highly sensitive instrument, then extract the geophysical instrument from the well, and control the borehole processes with a highly sensitive instrument, objectifying the data obtained by nomograms and tables .

 A significant increase in the measurement sensitivity is provided by the use of highly sensitive instruments as recording equipment. The use of highly sensitive instruments makes it possible to fix elastic waves, which expands the range of measured parameters, since any dynamic processes, including borehole ones, generate elastic waves.

 The installation of highly sensitive instruments on the outer side of the wellhead of the well string and monitoring of well processes according to nomograms and tables when using geophysical instruments removed from the well does not interfere with any work in the well, and therefore it is possible to continuously monitor well processes without using parallel geophysical instruments. Calibration and identification operations are necessary for compiling nomograms and tables with the goal of further continuous monitoring of well processes by highly sensitive instruments.

 Since the execution order of the proposed method is understandable from the text of the description of the invention and claims, there is no need to attach a drawing.

 The proposed method is as follows.

 On the outside of the mouth they install highly sensitive instruments that fix elastic waves, for example, seismic sensors or strain gauges. Then the instruments are lowered into the well: conventional geophysical instruments working on cable, and (or) stand-alone instruments. Both classes of instruments (geophysical and highly sensitive) are connected to the recorder or computer channels to enable calibration and identification of readings of highly sensitive instruments according to the readings of geophysical instruments and subsequent objectification of readings. Then, downhole processes are performed and the parameters obtained as a result of the impact of downhole processes on well elements are recorded on both classes of devices. Based on the data obtained, nomograms and tables for highly sensitive instruments are compiled, which make it possible to further objectify the data obtained during monitoring of well processes without the use of geophysical instruments. After that, geophysical instruments are removed from the well, and continuous monitoring of downhole processes continues to be performed by highly sensitive instruments using prepared nomograms and tables.

 Continuous monitoring of downhole processes allows them to be optimized and thereby intensify the production of oil, gas or any other fluids.

Claims (2)

 1. A method of monitoring downhole processes, including recording on a geophysical instrument the results of the impact of downhole processes on the elements of the well or transmitting the results of the impact on the recording equipment at the wellhead, characterized in that in parallel with the descent into the well of a geophysical instrument on the outside of the wellhead as recording equipment install a highly sensitive instrument, initially record the effects of downhole processes on the geophysical instrument and on the high sensibility reading instrument, calibrate and identify the readings of the highly sensitive instrument according to the readings of the geophysical instrument and compile the nomograms and tables for the highly sensitive instrument, then extract the geophysical instrument from the well, and control the borehole processes with a highly sensitive instrument, objectifying the data obtained from the nomograms and tables.  2. The method according to claim 1, characterized in that seismic sensors or strain gauges are used as a highly sensitive device.