KR101549228B1 - Subsea equipment with cathodic protection part - Google Patents

Abstract

The present invention relates to an undersea facility having an electromechanical unit.
According to an aspect of the present invention, there is provided a water treatment system comprising: a body positioned below the sea surface and capable of passing a fluid having a temperature higher than the temperature of seawater; A power generation unit connected to the main body and generating power using a temperature difference between the seawater and the fluid; And an electric type unit that uses the electric power supplied from the electric power generation unit to form the to-be-treated portion.

Description

[0001] SUBSEA EQUIPMENT WITH CATHODIC PROTECTION PART [0002]

The present invention relates to an undersea facility having an electromechanical unit.

Generally, when metal structures are placed in water or in the ground, the metal structures are corroded by chemical action with a corrosive substance such as a liquid or gas which can act mainly as an electrolyte. Anticorrosion is a technique to prevent such metal structures from being corroded, and representative methods include a coating method and an electric method.

The coating method is to cut off the contact with corrosive materials by performing a surface treatment such as painting on the surface of a metal structure to be treated, and in the electric type, a method current is flowed to the body to eliminate the potential difference of the metal surface, .

Among them, the electric method can be divided into the sacrificial electrode method and the external power method. The sacrificial electrode method is a method in which a metal (metal having a strong oxidizing property) It is a method of flowing current. In the external power supply method, a direct current external power source is used, and a cathode current is connected to the anode, and an anode is connected to an external power source electrode to supply a method current.

In the case of subsea facilities, since a large amount of ions are always exposed to seawater which can act as an electrolyte, a stronger method is required. However, when the above method is applied for the method of submarine facilities, various problems arise .

For example, when a coating method is applied, not only is it an excessive cost to perform surface treatment such as painting on all the surfaces of the submarine facilities, but also corrosion can not be prevented when the surface treatment is peeled off after being installed on the seabed , Maintenance is also difficult.

In case of using the sacrificial electrode method, since the mass of the sacrificial electrode is continuously decreased as the time elapses, the sacrificial electrode must be continuously replaced. In case of applying the external power supply method, the connection from the sea to the submarine equipment There are physical and economic limitations in providing cables.

Patent Document: Korean Published Patent Application No. 2011-0076196 (Published on July 6, 2011)

Embodiments of the present invention provide an undersea facility having an electric unit capable of preventing corrosion without supplying external power.

According to an aspect of the present invention, there is provided a water treatment system comprising: a body positioned below the sea surface and capable of passing a fluid having a temperature higher than the temperature of seawater; A power generation unit connected to the main body and generating power using a temperature difference between the seawater and the fluid; And an electric type unit that uses the electric power supplied from the electric power generation unit to form the to-be-treated portion.

The electric type unit may include: an oxidation electrode capable of applying a method current to the part to be treated; And a rectifier for applying the electric power supplied from the electric power generating unit to the to-be-treated part and the oxidation electrode.

The electric type unit may further include a reference electrode for sensing a potential difference between the to-be-treated portion and the seawater and transmitting the potential difference to the rectifier.

The power generation unit may provide a submarine facility having an electric unit including a power generation unit generating power using the temperature difference between seawater and the fluid and a power storage unit capable of storing power generated from the power generation unit.

The power generating unit may provide a submarine facility having an electric unit capable of supplying electric power to an electric unit of another submarine facility.

Embodiments of the present invention can provide an undersea facility having an electric unit capable of preventing corrosion without external power supply.

1 is a schematic view showing a submarine facility having an electric unit according to an aspect of the present invention installed on a seabed.
Fig. 2 is a view showing an electrical connection structure of the power generation unit, the electric type unit and the to-be-treated part in Fig. 1;

Hereinafter, embodiments of the present invention will be described in detail with reference to the drawings. In the following description of the present invention, detailed description of known functions and configurations incorporated herein will be omitted when it may make the subject matter of the present invention rather unclear.

FIG. 1 is a schematic view showing a submarine facility having an electric type unit according to an aspect of the present invention installed on a seabed. FIG. 2 is a schematic view of the electric power generating unit, the electric type unit, Fig.

1 and 2, an undersea facility 10 having an electrically operated unit according to an aspect of the present invention is a facility disposed below the sea surface and through which a fluid having a temperature higher than the temperature of seawater is passed, for example, It may be a device for performing submarine work such as drilling in conjunction with a maritime facility located or performing submarine work independently of maritime facilities.

The seabed facility 10 may include a main body 100, a power generation unit 200, and an electric type unit 300.

The main body 100 is configured such that a fluid having a temperature higher than the temperature of the seawater is passed therethrough and the power generating unit 200 installed in the main body 100 can produce electricity using the temperature difference between the seawater and the fluid. Specifically, the main body 100 is a device for passing oil or gas produced from the sea bed such as a BOP (Blow Out Preventer) or a riser, or a high-temperature fluid (for example, a lubricant of a drill rig) It can be a device that is passed. Therefore, the main body 100 may be at a temperature higher than the temperature of the seawater by receiving heat from the high-temperature fluid passing through the main body 100.

Here, the BOP is to prevent sudden ejection of high pressure raw gas or gas from the drilled borehole, and the riser is a series of pipes connecting the seabed facility 10 and the offshore installation.

The power generation unit 200 has a function of generating power using the temperature difference between the fluid passing through the main body 100 and the seawater. The power generation unit 200 may include the power generation unit 210 and the power storage unit 220.

Specifically, the power generation unit 210 may include a thermoelectric element that generates electricity using a Seebeck effect. For example, one surface of the power generation unit 210 may be in contact with the high temperature body 100, (Not shown). The power generation unit 210 provided in the main body 100 can generate electricity using the temperature difference between the fluid passing through the main body 100 and the seawater.

The power storage unit 220 has a function of accumulating electricity generated from the power generation unit 210 and can supply electric power to the electrified unit 300 'of the electric unit 300 or other subsea facility 20 , The main body 100 or a separate place. However, the power storage unit 220 may be omitted in the case where it is not necessary to separately store power, and in this case, the power generation unit 210 may be connected to the electric unit 300 'of the electric unit 300 or other submarine facility 20. [ The power can be directly supplied to the power source.

The electric type unit 300 has a function of preventing the corrosion of the seabed facility 10 and can be mounted on the main body 100 and includes the oxidation electrode 310, the reference electrode 320, and the rectifier 330 .

The oxidizing electrode 310 has a passageway function for supplying a regulating current to a portion to be prevented from corrosion (hereinafter, referred to as a "to-be-treated portion"), such as the main body 100 or other subsea equipment 20, (+) Pole of the transistor 330. In this case, the oxidizing electrode 310 only allows the direct current supplied from the rectifier 330, that is, the method current, to flow to the subject unit, and can be used semi-permanently because no electrolysis occurs.

As the kind of the oxidation electrode 310, zinc, aluminum, magnesium or the like having a large oxidative property (tendency to lose electrons) can be applied.

The reference electrode 320 is used to measure the potential value of the processable part, and it is possible to obtain the process potential by sensing the potential difference between the treated part and the seawater. The sensed method potential may be transmitted to the rectifier 330. Graphite, magnetite, platinum, titanium and the like which are chemically stable can be applied to the reference electrode 320 because the reference electrode 320 is large in reducing ability (tendency to obtain electrons).

The rectifier 330 is used to supply a necessary method current by applying a direct current voltage between the oxidizing electrode 310 and the to-be-treated portion. The negative terminal thereof is connected to the body to be charged, the positive terminal thereof is connected to the oxidizing electrode 310, So that a method current can flow in one direction from the oxidizing electrode 310 toward the subject. The magnitude of the method current applied by the rectifier 330 can be appropriately calculated based on the potential difference received from the reference electrode 320.

The seabed facility 10 having the above-described structure may be constituted by the main body 100 and the power generation unit 200, and may supply power to a separate electrothermal apparatus.

Hereinafter, the operation and effect of the submarine facility having the electric type unit according to one aspect of the present invention will be described.

Conventionally, the subsea equipment mounted on the deep sea floor is distant from the sea surface, and thus there is a problem that it is difficult to maintain a device used as a method. On the contrary, the electricity-generating unit 300 according to an aspect of the present invention can receive electricity continuously from the electricity-generating unit 200, thereby facilitating maintenance.

Specifically, the power generation unit 210 of the power generation unit 200 can generate electricity using the temperature difference between the high-temperature fluid passing through the seabed facility 10 and the low-temperature seawater. The electric power thus produced may be transferred to the power storage unit 220 and stored or may be provided to the electric unit 300 'of the electric unit 300 or other submarine facility 20 via a separate cable C.

Electricity produced from the power generation unit 200 can be supplied to the rectifier 330 of the electric type unit 300. The positive rectifier 330 is connected to the positive electrode of the oxidation electrode 310 and the positive electrode of the rectifier 330 is connected to the negative electrode of the rectifier 330 so that a method current can be applied from the oxidizing electrode 310 to the target.

At this time, the reference electrode 320 senses a potential difference between the to-be-treated portion and the seawater and transmits the sensed potential difference to the rectifier 330, and the rectifier 330 calculates the appropriate current from the transmitted potential difference and applies it to the oxidizing electrode 310. Therefore, the corrosion-prevention can be prevented since the potential difference with the seawater disappears in the treated part to which the corrosion current is applied.

Therefore, the submarine equipment having the electric type unit according to one aspect of the present invention can prevent the corrosion of the power generation unit 200 by self-generation, so that the work such as maintenance for preventing corrosion can be reduced.

In addition, there is no need to provide cables from sea to seabed so that production and maintenance costs can be reduced.

While the present invention has been described with reference to specific embodiments thereof, it is to be understood that the invention is not limited thereto and that various changes and modifications may be made without departing from the spirit and scope of the general inventive concept as defined by the appended claims. Should be interpreted as having. Skilled artisans may implement a pattern of features that are not described in a combinatorial and / or permutational manner with the disclosed embodiments, but this is not to depart from the scope of the present invention. It will be apparent to those skilled in the art that various changes and modifications may be readily made without departing from the spirit and scope of the invention as defined by the appended claims.

10: Subsea facility 100: Main body
200: power generation unit 210:
220: power storage unit 300: electric type unit
310: oxidation electrode 320: reference electrode
330: rectifier

Claims (5)

A body positioned below the sea surface and capable of passing a fluid above the temperature of the seawater;
A power generation unit connected to the main body below the sea level and generating electricity using a temperature difference between the seawater and the fluid; And
And an electric type unit that uses an electric power supplied from the electric power generating unit to form a to-be-
The above electrically-
An oxidizing electrode capable of applying a method current to the to-be-treated portion; And
And a rectifier for applying the power supplied from the power generating unit to the to-be-treated portion and the oxidation electrode. delete The method according to claim 1,
The above electrically-
And a reference electrode for sensing a potential difference between the target part and the seawater and transmitting the potential difference to the rectifier. The method according to claim 1,
The power generation unit includes:
A power generation section for generating power using the temperature difference between the seawater and the fluid;
And an electric storage unit capable of storing electric power produced from the electric power generating unit. 5. The method of claim 4,
Wherein the power generating unit includes an electric unit capable of supplying electric power to an electric unit of another submarine facility.

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