RU2149919C1 - Device measuring polarization potential - Google Patents

Abstract

FIELD: protection of underground metal structures against corrosion, determination of degree of protection of any underground metal service line by method of auxiliary electrode in case of cathode protection by superimposed current. SUBSTANCE: according to invention device comes in the form of sonde placed in case with lid. Measurement part of device is made of comparison and auxiliary electrodes. Auxiliary electrode is fabricated from metal and has hole with capillary put into it. One end of capillary comes to working surface of electrode and is located at same level with it. Wires, one being connected to comparison electrode and two others being linked to auxiliary electrode, pass through lid. EFFECT: simplified measurement circuit and increased measurement accuracy. 3 dwg

Description

 The device relates to the field of protection of underground metal structures from corrosion and can be used in the oil and gas industry to determine the security of any underground metal communications with their cathodic protection by applied current.

 A device for measuring the polarization potential is known, consisting of a long-acting comparison electrode and an auxiliary electrode installed directly at the underground structure (GOST 9.602-89). The device operates as follows: the auxiliary electrode is periodically connected to the underground structure, and the value of the polarization potential is determined by measuring the potential of the auxiliary electrode when it is disconnected from the underground structure.

 The disadvantage of this device is the need for a special switching device and the measurement error due to the measurement delay relative to the time of shutdown, as well as the need to equip a special control and measuring station for installing the sample and long-term reference electrode.

 The closest in technical essence is a device made in the form of a probe, the measuring part of which consists of a reference electrode and an auxiliary electrode (RF patent N 1738873, IPC C 23 F 13/00 of 05/21/95).

 The device works as follows: the probe is placed in a specially punched hole, and then connected to the measurement circuit. The measurement circuit contains a chopper and a voltmeter. The potential measurement of the auxiliary electrode is made at the time of disconnection from the structure.

 The disadvantage of measuring with this device is the error due to the ohmic voltage drop due to the distance between the reference electrode and the auxiliary electrode of 2-3 cm and the need for a switch.

 The objective of the present invention is to improve the accuracy of measurement and simplify the measurement circuit.

 The problem is solved as follows: in a device for measuring the polarization potential, made in the form of a probe, the measuring part of which consists of a reference electrode and an auxiliary electrode, according to the invention, the auxiliary electrode is made of metal, inside of which there is a capillary extending to the working surface of the electrode and ending in porous a diaphragm located at the same level with the working surface and having an expansion in the upper part, closed by a stopper and filled with electrolyte m in which the reference electrode is located; the reference electrode, in addition to the surface, is covered with insulating material; the whole structure is located in the housing to which the handle is attached; the housing is closed by a cover through which a test lead connected to the reference electrode and two wires connected to the auxiliary electrode pass.

 In FIG. 1 shows the appearance of the device.

 In FIG. 2 shows a cross section of the measuring part of the device.

 In FIG. 3 shows an electrical diagram of the operation of the device.

 The proposed device consists of an auxiliary electrode 1 made of metal, a capillary 2 is located inside the electrode, facing the working surface 3 of the electrode 1 and ending with a porous diaphragm 4 located at the same level with the working surface 3; the capillary has an expansion in the upper part, closed by a stopper 5 and filled with an electrolyte, in which the reference electrode 6 is located. The auxiliary electrode 1, in addition to the working surface 3, is covered with insulating material 7. The whole structure is located in the housing 8, to which the handle 9 is attached. The housing is closed by a cover 10 through which the measuring wire 11 connected to the reference electrode 6 and the wires 12 and 13 connected to the auxiliary electrode 1 pass.

 The measurements are carried out as follows: at the measuring point, a hole 14 is drilled to the depth of the structure under control, in which the device is placed so that the auxiliary electrode 1 is completely immersed in the ground at the bottom of the hole 14, after which the wire 13 is connected to the structure 15 through the instrumentation 16, and wires 11 and 12 - to the input of a high-resistance voltmeter. Measurements are taken 8-10 minutes after connecting wire 13 to building 15. Thus, measurements can be made with any high-resistance voltmeter, which simplifies the measurement scheme, since the switch is no longer necessary and the error is reduced, since the reference electrode and auxiliary electrode are located at a distance of 0.5 - 1 mm.

Claims (1)

 A device for measuring the polarization potential of an underground metal structure made in the form of a probe placed in a housing with a cover, the measuring part of which consists of a reference electrode and an auxiliary electrode, characterized in that the auxiliary electrode is made of metal and has a hole with a capillary inserted into it one end on the working surface of the auxiliary electrode and located at the same level with it, equipped with a porous diaphragm and filled with electrolyte, another The capillary’s end, closed by a plug, is made with an extension in which a reference electrode is placed, the auxiliary electrode being covered with insulating material except the working surface, and wires pass through the lid, one of which is connected to the reference electrode and the other two to the auxiliary electrode.

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