EA020940B1 - Group cathode protection station - Google Patents

Abstract

A station of group cathode protection relates to equipment for electrochemical protection of underground metal structures from corrosion and can be used for protection of several objects at once. The station contains cathode production channels designed with the possibility of connection of objects protected and anode beds. The station also contains a converter module including a rectifier, a pulse-width modulator, a transformer with secondary windings connected to the cathode protection channels, each of the latter consists of the following elements connected in-series: an amplifier module, a rectifier module, a filter module and an adjustable ballast module. Each amplifier module is connected to the control and protection module via the current sensor. Each adjustable ballast module is connected to the control and protection module via the voltage sensor, the control and protection module is connected to the converter module. The station modules are provided with connectors. The invention allows to enhance the device repairability and operation reliability and cathode protection effectiveness.

Description

The invention relates to equipment for the electrochemical protection of underground metal structures from corrosion and can be used to protect several objects at once, as well as as a current source in various fields of technology.

The known modular installation for cathodic protection according to the patent of the Russian Federation for invention No. 2293139, C 23P 13/04, 2007. The modular installation contains a reference electrode, a conversion module including a power source, a power amplifier connected to the anode earthing switch and a current sensor, a control unit containing modulator, first reference voltage source, first comparison unit, installation additionally contains a potential sensor and at least a second conversion module, identical to the first one and associated with it, while in the control module of each mode I conversion program further includes a second reference voltage, the second comparator unit, and a switch drive. The disadvantage of a modular installation is that not all elements of the installation are modular, in particular the power amplifier, the most frequently failing element does not have a modular design, which makes it difficult to replace it and generally reduces the maintainability of the installation.

Known adaptive system for cathodic protection of underground structures according to the patent of the Russian Federation for invention No. 2366760, C 23P 13/02, 2009. The adaptive system contains a transformer, a rectifier, a filter, an anode earthing switch, silicon valves, the system additionally contains power frequency switches, frequency filters, control units power frequency switches, protective potential correction value adders, protective potential value setting unit, analog signal inverting repeater, protective potential difference difference amplifier. The disadvantage of an adaptive system is that its elements do not have a modular design, which makes it difficult to repair when they fail. In addition, the system circuit does not provide protection against overcurrent or voltage, which reduces the reliability of the system.

As the closest analogue to the claimed technical solution, a multichannel cathodic protection station was selected by the RF patent for invention No. 2412280, C 23P 13/02, 2011. The station contains a power transformer made with several secondary windings, rectifiers, anode earthing, sensors of protective potential, input modules - outputs that are connected to the transceiver module and the soft start device. The disadvantage of the station is the inability to change the power of the cathodic protection channels, which reduces the effectiveness of cathodic protection.

The technical result is to increase maintainability, reliability of the device and the effectiveness of cathodic protection.

The technical result is ensured by the fact that the group cathodic protection station contains cathodic protection channels made with the possibility of connecting protected objects and anode earthing switches, according to the invention, the station further comprises a converter module including rectifier, pulse-width modulator, transformer with secondary windings connected to the channels cathodic protection, each of which consists of a series-connected amplifier module, a rectifier module, a filter module and an adjustable module th ballast, each amplifier module is connected through a current sensor to the control and protection module, each module is connected through an adjustable ballast to control the voltage sensor and the security module, control and protection module is connected to the transducer module. Station modules are made with connectors. Modules of adjustable ballasts are connected to the measuring electrodes.

The technical result is achieved due to the fact that the converter module, including a rectifier, a pulse-width modulator, a transformer with secondary windings connected to the cathodic protection channels, is common to the entire station group cathodic protection, which allows for repair and replacement of modules without replacing it , since it is usually in good condition in case of an accident, which simplifies the repair of the station. The converter module included the most reliable elements of the station, which did not fail for a long time, and the least reliable elements of the station, for example, such as amplifiers, were brought into separate quickly replaceable modules, which increased the maintainability and reliability of the device. A transformer with secondary windings allows connecting as many cathodic protection channels as there are protected objects. A transformer with secondary windings allows connecting both bridge and half bridge amplifiers. If a large power is required to protect the object, then a bridge amplifier is connected to the appropriate cathodic protection channel, and if less power is required to protect the object, then a half-bridge amplifier is connected, which increases the efficiency of the cathodic protection. In addition, during the station operation, due to the modular design, it is possible to change the power of each cathodic protection channel for more effective protection of the object. For example, if the power of a half-bridge amplifier is not enough to effectively protect an object, it can be replaced with a bridge amplifier.

The implementation of the station elements in the form of separate modules with connectors made it possible to provide a convenient and prompt repair of the station, which increased its maintainability. Thus, when a converter module, an amplifier module, a rectifier module, a filter module, an adjustable ballast module, or a control and protection module fail, these modules can be quickly

- 1 020940 replaced by similar modules.

Each amplifier module is connected to a current sensor, the signal of which, acting on the control and protection module, can block the operation of the converter module or the operation of a specific amplifier module when the maximum current in the cathodic protection channel is exceeded, resulting in increased reliability of the station.

Each module of the regulated ballast is connected to a voltage sensor, the signal of which, acting on the control and protection module, can block the operation of the converter module or the operation of a specific module of the adjustable ballast when the maximum voltage value in the cathodic protection channel is exceeded, thereby increasing the reliability of the station.

The connection between the control and protection module and the converter module allows adjustment of the parameters of the pulse-width modulator and, therefore, the output voltage of the converter module. The control and protection module generates and transmits current and voltage protection control signals to the converter module. In addition, the control and protection module generates current and voltage control signals to the modules of adjustable ballasts.

The drawing shows the block diagram of the station group cathodic protection. The group cathodic protection station contains a converter module 1, which includes a rectifier 2, a pulse-width modulator 3, a transformer 4 with secondary windings (not shown in the figure). The station also contains amplifier modules 5 with current sensors 6, rectifier modules 7, filter modules 8, modules of adjustable ballasts 9 with voltage sensors 10, control and protection module 11, measuring electrodes 12, anode earthing switches 13, resistance 14, protected objects 15.

Station group cathodic protection works as follows.

A voltage of 220 V with a frequency of 50 Hz is fed to the rectifier 2 of the converter module 1, where the conversion of an alternating voltage to a direct voltage takes place. Next, a constant voltage is applied to the filter (not shown in the figure) of the converter module 1, where the ripple voltage is smoothed. After that, the smoothed voltage goes to the pulse-width modulator 3 of the converter module 1, where the DC voltage is converted to an AC voltage with a frequency of 50-100 kHz. Next, a high frequency signal is supplied to transformer 4 (output transformer) of converter module 1. At the output of transformer 4, antiphase signals are generated that control the modules of amplifiers 5. Modules of amplifiers 5 can be made using a bridge or half bridge circuit. The station is equipped with amplifiers depending on the required power of each channel of cathodic protection. Use as many secondary windings of the transformer 4 as the protected objects 15 are connected. The amplifier modules 5 amplify the signals to the required power. Next, the signals from the modules of the amplifiers 5 are fed to the modules of the rectifiers 7, which rectify the alternating high-frequency voltage into a DC voltage. Then the constant voltage is applied to the filter modules 8, which smooth the pulsations obtained by rectifying the high-frequency voltage. Next, the constant voltage is applied to the modules of the adjustable ballasts 9, where the output voltage is adjusted to the desired value. Modules adjustable ballasts 9 are used to establish the required potential on the surface of protected objects 15. Regulation is carried out both in manual mode and automatically using a control and protection module 11. Modules of adjustable ballasts 9 have several modes of operation:

current stabilization mode;

voltage stabilization mode;

manual current control mode;

manual voltage regulation;

mode of automatic maintenance of protective potential.

The modules of the amplifiers 5 are equipped with current sensors 6, the signals of which, entering the control and protection module 11, can block the operation of the converter module 1 or the operation of a specific amplifier module 5 when the maximum current value is exceeded. Modules of adjustable ballasts 9 are equipped with voltage sensors 10, the signals of which, acting on the control and protection module 11, can block the operation of the converter module 1 or the operation of a particular module of adjustable ballast 9 when the maximum voltage value is exceeded. The control and protection module 11 is made on a microcontroller and has a non-volatile memory. The control and protection module 11 receives signals from the amplifier modules 5 and from the modules of adjustable ballasts 9, on the basis of which the control and protection module 11 determines the output current of each cathodic protection channel, the output voltage of each cathodic protection channel, the total potential of each cathodic protection channel . The control and protection module 11 generates its control output signals. When the allowable current and voltage in the cathodic protection channel are exceeded, the control and protection module 11 generates a blocking signal for this channel. The control and protection module 11 accepts the following input signals:

current level signal of each cathodic protection channel;

- 2 020940 voltage signal of each channel of cathodic protection; signal of the protective potential level of each channel of cathodic protection.

The control and protection module 11 generates the following output signals, which serve as control signals:

current protection control signal; voltage protection control signal; control signal control current; control signal voltage adjustment.

The control signals from the control and protection module 11 enter the converter module 1, the amplifier modules 5 and the adjustable ballasts modules 9. The measuring electrodes 12 monitor the protective potential on the pipeline. The measuring electrodes 12 are located in the immediate vicinity of the protected objects 15. Anode earthing 13 create a circuit of flow of protective current (station - pipe - ground resistance - anode earthing - station). Anode earthing 13 are casting from a corrosion-resistant metal. Resistance 14 - the resistance of the soil between the protected objects 15 and the anode grounding 13. To the cathodic protection channels (not shown in the figure) connect the protected objects 15 and the anode grounding 13.

Thus, the claimed invention allows to improve maintainability, reliability of the device and the effectiveness of cathodic protection.

Claims (3)

1. A group cathodic protection station comprising cathodic protection channels configured to connect protected objects and anode grounding conductors, characterized in that it comprises a converter module including a rectifier, a pulse-width modulator, a transformer with secondary windings connected to the cathodic protection channels, each of which consists of a series-connected amplifier module, a rectifier module, a filter module and an adjustable ballast module, each amplifier module is connected through a current sensor with a control and protection module, each adjustable ballast module is connected via a voltage sensor to a control and protection module, the control and protection module is connected to the converter module. 2. The group cathodic protection station according to claim 1, characterized in that the modules are made with connectors. 3. The group cathodic protection station according to claim 1, characterized in that the modules of adjustable ballasts are connected to the measuring electrodes.