SU1461893A1 - Apparatus for determining the direction of off-casing flows in a well - Google Patents

Abstract

The invention relates to an oil producing industry. The purpose of the invention is to improve the accuracy of determination. The device contains a non-cylindrical housing 1 and a heater 7 installed along its longitudinal axis and sensors 6 located therein and below it. Each of the latter consists of a body and a sensing element. The device has an additional heater and an electronic unit of stabilized heating connected to it. The sensing element is designed as a battery of series-connected differential thermocouples. The heater is installed on the inside of the battery. The inner and outer sides of the latter are made of layers of heat-conducting materials. With the achievement of a stationary thermal mode, the value of the battery EMF varies depending on the temperature of the wall of the inner surface of the column at the point of pressing the sensors 6, which in the stationary heat mode depends on the direction and speed of the annular flow. I 3. n. F-ly. 2 Il. (L 05 00 oo

Description

; :; G, the retention of othiosigs to devices; 1Ps mining industry and,;: ,, fsbiTb Hciio.HbaoBafio zi. iH definitions 1 ,. and the direction of the annular flow- |,.) g. i well

11 (inventive method is to increase the accuracy of determining the direction of behind-the-well casing in the well.

FIG. 1 shows the device, ob-P1py view; on phpg. 2 shows section A-A in FIG. 1. The device consists of a cylindrical body 1, in which the floor of the intersection 2 is installed, is locked at the ends by a stopper 3 and a bushing 4, two temperature sensors 6 and a heater 7 are installed in the openings 5 of the insert 2, the tips 8 of which are equipped with a spring 9 between the housing 1 and the pusher 10 or the notch 11 on the pusher 10 in the operating state of the device, while between the heater 7 and the sensors 6 in the recesses 11 in the housing 1 are installed the latches 12. The sensing element of the temperature sensor 6 is made in the form of a battery 13 (in Fig. 2) from a large numbers (up to 1200 pieces) series-connected differential thermocouples 14 inserted into the casing 15 of the sensor 6 from thermal insulation material together with a rubber cuff 16. The battery 13 consists of a frame in the form of a spiral-wound thin flexible thermal insulation film (not shown) and a constantan wire (not shown ), part of which is copper coated to form differential thermocouples. On the inner side of the battery 13, an additional heated heater is installed. It consists of helically wound Pichrom wire. The inner and outer surfaces of the battery 13 are made of heat-conducting heat-resistant paste 18 (for example, KTP-8 paste), and the outer surface contacting with the wall of the column is additionally covered with a copper plate 19 and a low-melting alloy 20 (for example, Wood alloy). Conclusions 21 additional heaters., 1Я 17 are connected to the electronic unit 22 of stabilized heating. To the terminals 23 of the battery 13 a digital voltmeter 24 is connected.

The operation of the device is based on a change in the force electromotive force (EMF) of the differential thermocouples of the battery 13 depending on the temperature of the column wall (not shown).

The device works as follows. 11a, the logging cable is lowered into the well at a certain depth and pressed against the wall of the string, rioc. Ie this, with the help of a bast-hole well-1.1.1 thruster, the pusher 10 rises. Sun.- 1mstvpe of which lugs 8 nopadak) li notch 11, under the action of spring 9 pa | the actuator 7 and the sensors 6 are pulled out of the device and tightly mounted

five

To the inner surface of the column wall. After some time, a certain amount of electrical current is supplied to the heater 7. Electric heater 7 transfers heat to the main wall of the column. After reaching the steady-state (stationary) thermal mode, the electronic unit 22 of the stabilized heating of the heater 17 is turned on. The target value of the current of the stabilized heating of the bodies 17 is determined depending on the heating value of the wall of the column at the place where the temperature sensors 6 are pressed to it. In this case, the temperature of the inner plane of the battery 13 (on the side of the heater 17) must exceed the temperature of the outer plane of the battery 13 (pressed against the wall of the column) to a technically possible limit determined by the properties of the materials used in the device. This temperature difference between the internal and external surfaces of the battery 13 is expressed by the emf value of differential thermocouples. 14, is measured by a digital voltmeter 24 at the points of pressing the sensors 6 (up and down from heater 7) with heaters 7 and 17. With the onset of the stationary mode, equilibrium is established between the flow generated by heater 7 and the heat supply riopress from 7 through the wall of the column to the annular flow and partially to the flow inside the column, and between the heat fluxes from the heater 17 of the battery 13 of the differential thermocouples 14 and the environment. With the achievement of the stationary thermal mode, the value of the EMF of the battery 13 of differential thermocouples 14 (temperature difference) changes depending on the wall temperature of the inner surface of the column at the point of pressing the sensors 6, which, when stationary thermal mode depends on the direction and speed of the annular flow.

0 According to the measured values of E; 1C of batteries 13 of each sensor 6 (more precisely, according to their difference), the direction and speed of the annular flow is judged.

Measurements in a well are preceded by the calibration of one device of this series on a stand simulating a well, which allows to take into account all the design features of the device and the conditions of the heat transfer process in the well. In this case, the magnitude of the heating current is determined.

0 heater and the amount of current stabilized heating additional heater.

Claims (2)

Invention Formula 5 1. A device for determining the direction of annular flows in a well, including a cylindrical body and an installation of 0 five Heaters along the longitudinal axis of the heater and temperature sensors located above and below the heater, consisting of a housing and a sensing element, characterized in that, in order to increase the determination accuracy, it is equipped with an additional heater and an electronic unit of stabilized heating connected to it, sensitive element of the temperature sensor is made in the form batteries - from series-connected differential thermocouples, with an additional heater installed on the inside of the battery. 2. A device according to claim 1, characterized in that the inner and outer surfaces of the battery of differential thermocouples are made of layers of heat-conducting materials. ff 17 Фа2.2