RU181690U1 - CONTROL UNIT AND MEASUREMENTS OF ANODE EARTHING CURRENT FOR THE SYSTEM OF ELECTROCHEMICAL PROTECTION OF METAL PIPELINES FROM CORROSION - Google Patents

Abstract

The utility model relates to systems for the electrochemical protection of metal structures against corrosion, in particular to the anode grounding current control units used in the system for the electrochemical protection of metal pipelines, industrial sites of compressor stations (CS), gas distribution stations (GDS) and other objects. the anode grounding for the system of electrochemical protection of metal pipelines from corrosion contains a cable outlet connected to the block panel direct current from the cathodic protection station, leads of the conductors of the electrodes of the anode ground, having measuring shunts of constant resistance. The shunts are electrically connected in parallel with the output of the main cable for equal distribution of current to each shunt and have outputs to the contacts of the measuring zone. The unit is equipped with a digital ammeter and a multi-channel wired switch installed on its panel, with the contacts of the stator board connected to the terminals of the measuring shunts electrically connected to the conductors and one of the terminals of the ammeter, the other terminal of which is electrically connected to the distributed plate. The contact of the stator board connected to the output of the ammeter is contacted with the rotor of the switch. The rotary control knob of the rotor, the ammeter board and the connection contacts to the output cable of the trunk cable, the conductors are located on the front side of the unit panel. The stator part and the rotor of the switch are located on the opposite side of the panel of the unit. The technical result when implementing the claimed technical solution is to increase the reliability of control and measurement with visualization of these parameters during the operation of control and measuring points. 3il.

Description

The utility model relates to systems for electrochemical protection of metal structures against corrosion, in particular, to blocks for monitoring the current of anode grounding used in the system for electrochemical protection of metal, pipelines, industrial sites of compressor stations (CS), gas distribution stations (GDS) and other objects.

Design of electrochemical protection systems for metal structures, in particular, pipelines located in the ground, meets the requirements of GOST R 51164, STO Gazprom 2-3.5-047-2006 "Instructions for the calculation and design of electrochemical corrosion protection of pipelines".

The structure of the electrochemical protection system (ECP) of main pipelines against corrosion includes:

cathodic protection stations (SCZ), diagnostic control points and corrosion monitoring, anode grounding conductors, anode and drainage lines, overhead power lines, transformer substations.

The principle of operation of the RMS is to supply an artificially negative (cathodic) potential to the pipeline, and a positive potential to the electrode (sacrificial anode ground electrode), as a result, the cathodic process occurs in which the electrode is destroyed and the pipeline is negatively polarized. Depending on the electrochemical activity of soils, the state of the protective coating of the cathodic protection station is set at a distance of 5-15 km from each other.

Control and measuring points (instrumentation) are located mainly:

at each kilometer (at least after 500 m when the pipeline crosses the zone of action of stray currents or soils with high corrosiveness);

at the intersection of pipelines with other metal structures;

in places of change of direction (rotation angles) of the main gas pipeline;

in places of maximum closeness of the main gas pipeline with anode grounding and, preferably, are made (see TU 3435-001-09890805-2012) in the form of hull products based on polymer materials, inside which are placed panels for connecting power and control equipment in combination with the following devices:

joint protection unit (BSZ) - designed to organize joint electrochemical protection of two or more underground structures located in close proximity to each other (intersecting or parallel branches of underground communications) and to eliminate the harmful effects of neighboring communications by regulating the protective current of the structure. BSZ can be delivered in various modifications, differing in the ways of regulation of protective current: resistor and electronic and in the number of control channels from 1 to 4;

protective grounding block (BZZ) - designed to protect underground structures from the corrosive effects of electromagnetic fields of power lines located nearby and / or crossing the protected structure, as well as to organize lightning protection;

control unit and measuring the currents of the anode grounding (BKAZ) - designed for switching and monitoring the performance of the anode grounding electrodes by connecting the unit to the electrical circuits of the electrodes and the main DC cable from the cathodic protection station.

Control units for anode grounding currents and protectors are used in the electrochemical protection systems of extended underground metal objects (pipelines) against corrosion and are designed to determine the distribution and control of protective currents of electrochemical protection. Immersed in an electrolytic medium (soil) connected to the positive pole of a direct current source, the anode grounding electrodes are preferably made of sparingly soluble materials: carbon-containing, magnetite or high-silicon cast iron.

The technical parameters of the materials used for the manufacture of anode grounding electrodes, the overall parameters of the grounding conductors, the depth of their laying in the ground and the conductivity of the ground determine the amount of current spreading by each grounding electrode, the control of which allows generating output control signals by the permissible current and voltage on the corresponding channel connecting the anode grounding line with a cathodic protection station, which provides objective control, reliability and electrochemical efficiency shields of metal pipelines.

A control and measuring station with a unit for monitoring and measuring the magnitude of the current flowing in the anode ground circuit, protectors and electrical jumpers are placed in the places where the anode ground is installed to control the current of each electrode.

A known unit for monitoring and measuring the anode ground current for a system of electrochemical protection of metal pipelines against corrosion, comprising a terminal of a direct current cable from a cathodic protection station connected to a panel panel, leads of conductors of anode ground electrodes having direct current resistance shunts that are electrically connected in parallel with a trunk cable for equal distribution of current to each shunt and have conclusions to the contacts of the measuring zone (see commercially available commercial products KAZ-M, according to TU 4318-002-87598003-2010 (Certificate of Conformity NPOCCRU. АГ66.Н06983. KIP.PVEK with KAZ-M), manufacturer Technoprom LLC, which manufactures equipment for electrochemical systems protection, corrosion monitoring of pipelines of the oil and gas complex, website www.technoprom. (support section - patents and certificates) This technical solution was chosen as the closest analogue of the claimed utility model (see Appendix 1 for 3 liters.).

When implementing this technical solution, they provide current control of each anode ground electrode, which characterizes the state of operability (wear) of the electrode, which guarantees the quality of the process of electrochemical protection of pipelines. The availability of information about the time variation of the current of the anode grounding electrode makes it possible to evaluate its dissolution rate and to carry out the necessary repairs in a timely manner, which increases the efficiency and reliability of the electrochemical protection system.

At the same time, the contact system of the measuring zone used in the implementation of this technical solution has a series of contacts arranged in series connected to the unit panel, two contacts for each measuring shunt, one of which is electrically connected to the current lead of the corresponding electrode, and the other to the output of the main cable That provides control over information on the electrical state of each electrode during the implementation of the following operational actions:

voltage measurement at each shunt of the corresponding electrode using a portable voltmeter by appropriate instrumental manipulations with the terminal-contact system;

operational determination of the current value in the corresponding measurement channel according to the calculation formula.

As a result, the process of operational maintenance of the KAZ-M control and measuring equipment has a significant laboriousness, low productivity, which is especially important when operating instrumentation with the specified equipment in difficult climatic conditions.

In addition, the conclusions of the main cable, measuring shunt cables are located on the front side of the unit panel in the area of operational monitoring and measuring the anode grounding parameters, which reduces the safety of maintenance and significantly complicates the operator’s work.

In general, these shortcomings worsen the conditions of service and complicate the operation of control and measuring points equipped with control units and measure the current of the anode ground.

The technical result of this utility model is to improve the convenience of maintenance of control units and measure the current of the anode grounding for the electrochemical protection system of metal pipelines against corrosion, and in general to increase the reliability of control and measurement with visualization of these parameters during the operation of control and measuring points.

To solve the technical result, we propose a unit for monitoring and measuring the current of the anode grounding for a system of electrochemical protection of metal pipelines against corrosion, containing a terminal of a direct current cable from a cathodic protection station connected to a panel of the unit, leads of conductors of anode grounding electrodes having measuring shunts of constant resistance, which are electrically connected in parallel with the trunk cable for equal distribution of current to each the shunt and have leads to the contacts of the measuring zone, the unit is equipped with a digital ammeter installed on its panel and a multi-channel wrench switch, with the contacts of the stator board of which the leads of the measuring shunts are connected, one of the leads of the ammeter, the other lead of which is electrically connected to the lead of the main cable wherein the contact of the stator board connected to the output of the ammeter is contacted with the rotor of the switch, the rotary control knob of the rotor system of the switch, lo ammeter connections and contacts to the panel output trunk cable conductors terminals are arranged on the front side of the unit, and the stator part and the rotary switch system, measuring shunts, their electrical connections disposed on opposite sides of the unit.

According to a utility model, the panel has from 1-8 channels for measuring the current of the anode ground.

In the analysis of the prior art, no technical solutions have been identified that have a similar set of features to the claimed technical solution, which indicates that its criteria of usefulness are “novelty” and “industrial applicability”.

When implementing the utility model, it is possible to create an easy-to-maintain monitoring and measuring unit for the anode grounding current for the system of electrochemical protection of metal pipelines against corrosion, the use of which increases the reliability of monitoring and measurement of these parameters during the operation of control and measuring points, which is confirmed by the description below.

The utility model is illustrated by graphic materials, where:

fig. 1 shows an electrical diagram of an anode grounding current monitoring and measurement unit for an electrochemical corrosion protection system for metal pipelines (an embodiment of a unit with eight channels for measuring anode grounding current).

fig. 2 shows the front side of the panel of the control unit and measuring the current of the anode grounding (version of the unit with four channels for measuring the current of the anode grounding).

Fig. 3 also as in fig. 2 - the back side of the panel of the control unit and measure the current of the anode ground.

The anode grounding current monitoring and measurement unit for the electrochemical protection system for metal pipelines against corrosion comprises a panel 1 with contacts 2 and 3 for connecting, respectively, the output of the DC main cable 4 from the cathodic protection station, the leads of the conductors 5 of the anode grounding electrodes having measuring shunts 6, 7 constant resistance, which are electrically parallel connected to the output of the main cable 4 for an equal distribution of current to each shunt and have conclusions to the circuit where the measuring area. The unit is equipped with a digital ammeter 8 installed on the panel 1 and a multi-channel wired switch 9. Multi-channel wired switches are used for switching electric circuits of direct current, as well as low and high frequency alternating current, the design of which is traditionally based on the presence of base bumps and a control unit. The biscuit consists of a fixed part - a stator and a movable part - a rotor with a control handle. A switching plate with one protrusion 10 is fixed on the rotor for interaction with the contacts of the stator board of the switch. For the implementation of the utility model, in particular, a single-row biscuit switch was used for commercial products ПГК-3П3Н (see www.eandc.ru/catalog).

With the contacts 11 of the board 12 of the stator part are electrically connected to the terminals 13, 14, 15, 16 of the measuring shunts 6, 7, the terminal 17 of the ammeter 8, the other terminal 18 of which is electrically connected to the terminal of the main cable, while the terminal 17 is electrically connected to the rotor 19 of the switch . The rotary control knob 20 of the rotary switch system, the scoreboard 21 ammeter 8 and the connection contacts to the panel 1 of the output of the main cable, the leads of the conductors are located on the front side of the panel, and the stator part, the rotor system of the switch, measuring shunts, their electrical connections are located on the opposite side of the panel block.

The panel has from 1-8 channels for measuring the current of the anode grounding, which is optimal according to the design and technological placement on the named panel of the corresponding number of leads of the electrode conductors and taking into account the placement of the control unit and measuring the current of the anode grounding in the control and measuring point (KIP). The presence in the panel 1 of the anode grounding control and measurement unit of the indicated number of current lead leads with measuring shunts determined the choice of a single-row wired switch for the implementation of the utility model.

When describing the design of the control unit and measuring the current of the anode grounding for the electrochemical protection system - metal pipelines against corrosion, a variant of its design with four channels for measuring the current of the anode grounding in accordance with Fig. 2 and 3.

The control unit and measuring the anode ground current for the system of electrochemical protection of metal pipelines from corrosion, located in the control and measuring point (KIP), is preferably used in the anode grounding system having several working electrodes (grounding conductors), the number of which is determined taking into account factors such as : current strength of the cathode installation (RMS); soil properties at the grounding location (soil resistivity, humidity, freezing depth); the layout of the protected objects and other underground metal structures near the location of the anode ground; technical characteristics of the material of the electrodes for anode grounding. When implementing the utility model, it is possible to control and measure the current if there is no more than eight electrodes in the anode grounding system under study, which is explained by the conditions of the design and technological design of the panel of the anode grounding control unit and measure the current for the test point.

The removal of information about the working condition of the anode grounding electrodes is evaluated by measuring the strength and current indication with constant monitoring of each electrode by using for this purpose a control unit and measuring the current of the anode grounding with a tinker switch.

Claims (2)

1. The unit for monitoring and measuring the anode ground current for the system of electrochemical protection of metal pipelines against corrosion, comprising a terminal of a direct current cable from the cathodic protection station connected to the panel panel, leads of the conductors of the anode ground electrodes having constant resistance measuring shunts that are electrically connected in parallel with the conclusion of the main cable for an equal distribution of current to each shunt and have conclusions to the contacts of the measuring zone, characterized in that the unit is equipped with a digital ammeter and a multi-channel wired switch installed on its panel, with the contacts of the stator board connected to the terminals of the measuring shunts, one of the terminals of the ammeter, the other terminal of which is electrically connected to the terminal of the main cable, while the contact of the board of the stator part, connected to the output of the ammeter, contacted with the rotor of the switch, a rotary control knob of the rotor system of the switch, the ammeter board and the connection contacts the output cable of the main cable, the conductors are located on the front side of the unit panel, and the stator part and the rotor system of the switch, measuring shunts, their electrical connections are located on the opposite side of the unit panel. 2. The unit for monitoring and measuring the current of the anode ground for the system of electrochemical protection of metal pipelines against corrosion according to claim 1, characterized in that the panel has from 1-8 channels for measuring the current of the anode ground.

Images