SU1452963A1 - Method of analyzing component gas in borehole - Google Patents

Abstract

The invention relates to geophysical studies. The purpose is to increase the accuracy of determination. A gas sample is taken from the wellbore to the 1-trailer. Gas samples are divided into soy-. to cie components through selectively permeable membranes. The components are enclosed in calibrated chambers of the container, in each of which pressure is continuously measured. It is used to determine the component composition of the gas. The use of the proposed method in various wells increases the efficiency of determining the composition of the gas and reveals its component composition in complex intervals in complex reservoirs. The interval study of coal wells allows you to quickly and accurately determine the intervals with combustible gases. .1 il. o (l

Description

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The invention relates to research studies and can be used to determine

gas composition in the trunk of oil and gas, hydrogeological ore and coal wells, as well as for identifying oil and gas bearing formations in PS1IS and parametric wells: x.

The aim of the invention is to improve the accuracy of determining the components of the gas composition in the wellbore.

The drawing shows a device that implements the method.

The device consists of a housing 1, inside of which are calibrated chambers 2. Chambers 2 mediating selectively permeable membranes (molecular sieves) 3 and openings 4 in the housing communicate with the well bore E1; in addition, chambers 2 communicate: through the holes 5 through the drainage tube 6 with the side holes of the electromagnetic shutter 7 with ha

MIS3 kit 8. Inside the chambers 2, high-precision pressure sensors 9 are installed. Also in the device there is an electrovacuum pump 10, sensors 11 and 12 of hydrostatic pressure and temperature, a telemetry unit 13. ;

The device works in the following way.

j In a well, a device is pulled at a certain speed (discrete recording is also possible at certain depths). Through the holes 4 and the membranes 3 into the calibrated chambers 2 of the container under the action of a differential pressure (hydrostatic pressure in the well bore — pressure in the chamber is below atmospheric), flow (diffuse) from the well borehole (or formation fluid) wellbore) separated gas components (for example, methane, ethane, hydrogen, nitrogen, etc.). The pressures created by the separated gas components entering the chambers are continuously recorded by high-precision sensors 9, by pressure and by 13 telemetry and wireline cable 14 are transmitted to the surface, to the analysis and processing unit 15, then 6j (oK 16 recording, recording the processing results in mass and real time on a plotter or on a magnetic tape.

The operation of the entire device is controlled using control units 17 and telemetry 13, a software device 18, with which the operator sets one or another device sensor survey, the duration of gas sampling operations, the number and depth intervals for exposures. Synchronization aatlHH of the control unit 17 is performed from the depth sensor 19.

To introduce corrections in the calculation of the component composition of gases, hydrostatic pressure sensors 11 and temperatures 12 are periodically polled.

The use of the method in various wells will dramatically increase the efficiency of determining the component composition of the gas, reveal with great accuracy oil and gas reservoirs in parametric and exploration wells, reveal the component composition of gases in complex reservoirs where there are closely spaced thin reservoirs. have different chemical composition and the value of chemical composition is important for calculating reserves of associated gases and developing optimal modes of well operation, enhanced oil recovery deposits.

The method is also applicable to the study of hydrogeological and ore wells, where psgc ore and other bodies are scattered over halos of dispersion of various components (and rare elements). Interval study of coal wells will allow you to quickly and accurately determine the intervals with flammable gases,

Claims (1)

Invention Formula A method for determining the component composition of a gas in a wellbore, including sampling gas from a wellbore. In a container, characterized in that, in order to improve the accuracy of the determination, gas samples are divided into the component components by means of selectively permeable membranes, into the calibrated chambers of the container, in each of which the pressure is continuously measured, from which the composition of the gas is determined. l-u u f  ®