JPH0455188A - Corrosion protection method for steel structure part in ballast tank - Google Patents

Abstract

PURPOSE:To prevent generation of galvanic corrosion reaction and to restrain generation and progress of corrosion by filling a space part in a ballast tank with an inert gas and by purging air so as to reduce oxygen concentration in the space part. CONSTITUTION:When an inert gas G is supplied from an inert gas supplying device 3 to fill a space part 2' in a ballast tank 2 through an inert gas pipe 4, air in the space part 2' is replaced with the inert gas G and oxygen is purged. Thus, oxygen concentration in the ballast tank 2' can be set at an extremely low value, and galvanic corrosion reaction of metal because of dissolving of oxygen in the air into a water screen on the metal surface can be restrained or prevented. Therefore, generation and progress of corrosion of a steel structure part in the tank 2 can be restrained. Also, as an oxygen monitoring device is provided, the oxygen concentration in the space part 2' can be controlled at an extremely low constant value.

Description

DETAILED DESCRIPTION OF THE INVENTION [Industrial Field of Application] The present invention relates to a method for preventing corrosion of a steel structure inside a ballast tank in a ship such as a tanker.

[Prior Art] Dedicated ballasts 1 to tanks used in tankers and the like have the problem that the metal surface of the internal steel structure is easily corroded (rust occurs) due to the N-phase interaction with the environment. be. One possible cause of the above corrosion is that oxygen in the air dissolves into the water film on the metal surface, where the metal undergoes an electrochemical corrosion reaction. In other words, the corrosion rate varies depending on the unevenness of the metal surface, the humidity of the air, the temperature difference between the metal surface and the air, the salt concentration, etc., but in any case, the factors that cause corrosion to progress are the presence of oxygen and moisture (seawater). It has a big presence.

Therefore, special ballasts for tankers with single bottom and single membrane structure 1~
Conventionally, tanks have generally been treated with corrosion protection measures such as painting, electric corrosion protection, or a combination of these.In particular, corrosion prevention measures due to oxygen contained in the air inside the tank have been taken. Corrosion prevention measures by painting are essential.

[Problems that Twilight aims to solve] Recently, there has been a growing trend to specify double-bottom and double-shell structures as tanker structures, and in this case, there has been a rise in the tendency to specify double-bottom and double-shell structures for tankers. If the same anti-corrosion method used for ballast tanks is applied to ballast tanks exclusively for double-bottomed, double-shelled tankers, there is a concern that the amount of painting work and amount of paint will increase significantly.

Therefore, the present invention can suppress the corrosion of metal surfaces due to oxygen contained in the air in the ballast tank with a smaller amount of painting work and amount of paint than the conventional corrosion prevention method using paint, and double-bottomed. The purpose of this invention is to provide a method for preventing corrosion of the steel structure of the ballast 1 to the tank interior, which can be easily applied to special ballast tanks for double-shelled tankers.

[Means for Solving the Problems] In order to solve the above problems, the present invention purges the air by filling a space in a dedicated ballast tank of a ship with inert gas, thereby reducing the oxygen concentration in the space. This is a corrosion prevention method for the steel structure inside a ballast tank.

[Operation] By filling the space in the ballast tank with inert gas and purging the air, the oxygen concentration in the space can be lowered. By preventing corrosion reactions from occurring, corrosion of the steel structure inside the ballast tank can be prevented.
Progress can be slowed down.

[Example] Embodiments of the present invention will be described below with reference to the drawings.

The figure shows an embodiment of the corrosion prevention method of the ballast 1-tank internal steel structure of the present invention, in which a dedicated ballast tank 2 is partitioned outside the cargo oil tank 1 and has a double bottom and a double shell. In a tanker having this structure, an inner 1 to gas system, which is equipment for explosion-proofing of cargo oil tanks such as conventional tankers, is used in the ballast tank 2, and a space 2 in the ballast tank 2 is used.
By filling the ballast tank 2 with inert gas G and purging the air, the oxygen concentration in the ballast tank 2 is significantly reduced and corrosion of the steel structure inside the ballast tank 2 is prevented from occurring or progressing. .

To explain in detail, the inner 1 to gas piping 4 connected to the gas supply device 3 of the inert gas device IGS, the inert gas generator IGG etc. are connected to the ballast tank? and the above ballast 1 to tank 2,
In addition to providing a gas-free hatch 5, an independent pen 1 with a relief valve to a post (formerly GH Velo
City type) 6 are provided in an appropriate number, and the inert gas pipe 4 is connected to the ballast 1 from the inert gas supply device 3.
- The air is purged by supplying and filling the space 2' above the ballast in the tank 2 with inert gas G, and furthermore, based on the oxygen concentration in the ballast tank 2, the amount of inert gas G is In order to control the supply amount, an oxygen concentration grinder 7 is installed in the tank 2 of the ballast 1, and an oxygen indicator 9 is installed on the control panel 10 as a console installed in the cargo control room to monitor the oxygen concentration. The apparatus is configured to connect the oxygen concentration meter 7 and the oxygen indicators 9 of the inner 1 to the gas control panel 10 with an electric wire 8.
The oxygen concentration in the tank 2 is displayed on the oxygen indicator 9 to the ballast l sent from the oxygen concentration meter 7, and the oxygen displayed on the control panel 10 is By automatically or manually operating the inert gas fan switch 11 of the control panel 10 based on the concentration value, a predetermined amount of inert gas G from the inert gas supply device 3 is injected into the space 2' of the ballast 1 to tank 2. to be done. The inert gas supply device 3 is configured to supply inert gas G using a fan after removing contaminants from the flue gas of the boiler using a scrubber.

Iner 1 to gas G are passed from the inert gas supply device 3 through the inert gas pipe 4 to the space 2' in the ballast tank 2.
When the space 2' is filled with gas, the air in the space 2' is replaced with the inert gas G, and oxygen is purged. As a result, the oxygen temperature in the space 2' above the ballast tank 2 can be reduced to an extremely low value of 8 degrees Celsius, so that the oxygen in the air dissolves into the water film on the metal surface, causing electrochemical corrosion of the metal. can be suppressed or prevented from occurring. Therefore, corrosion of the steel structure inside the ballast tank 2 occurs,
Progress can be slowed down.

On the other hand, if the ballast tank 2 is made of water ballast, it is necessary to absorb and drain ballast water depending on the loading situation, etc., to adjust the water ballast. Since the volume of the space 2' above the ballast water varies, it is necessary to adjust the amount of inert gas injected. In this regard, in the present invention, since an oxygen monitoring device is provided, the oxygen concentration in the space 2' in the ballast tank 2 can be constantly controlled to a constant, extremely low value. That is, for example, when water is drained from the ballast 1 in the ballast tank 2, an amount of air corresponding to the drained ballast water flows into the space 2.
’, or there is an oxygen concentration meter 7 in the ballast tank 2.
Since the oxygen concentration meter 7 is installed, the value of the oxygen concentration that changes with the inflow of air is sent to the control panel 10 and displayed on the oxygen indicator 9. When this value exceeds a certain standard value, the inert gas fan switch 11 is automatically or manually turned on.
By doing so, the inert gas supply device 3 is driven and the ballast 1 to tank 2 are replenished with Eve-1 to gas G.
Air is purged.

In the above, gas 1 to gas G into the ballast tank 2
The supply is based on the Inner 1 gas system for the purpose of explosion-proofing the cargo oil tank 1, so it is highly safe and reliable.

It should be noted that the present invention is not limited only to the above embodiments, and it goes without saying that various changes can be made without departing from the gist of the present invention.

[Effects of the Invention] As described above, according to the corrosion prevention method for ballast 1 to tank internal steel structure of the present invention, inner 1
- By filling the space with gas and purging the air to lower the oxygen concentration in the space, electrochemical corrosion reactions occur when oxygen, which is the cause of corrosion, dissolves into water. It is possible to prevent the occurrence and progression of corrosion, and it is possible to reduce or eliminate conventional anti-corrosion coatings.It is also effective when used as an auxiliary means for other anti-corrosion methods. It exhibits excellent effects, such as being extremely advantageous when applied to special ballast tanks for heavy-bottomed, double-shelled tankers.

[Brief explanation of the drawing]

The figure is a conceptual diagram showing an example of an apparatus for carrying out the corrosion prevention method of the steel structure inside a ballast tank according to the present invention. ? ...Ballast tank, 2'...Space, 3...
Iner 1 - gas supply device, 4... inert gas piping,
7...Oxygen concentration meter, G...Inert gas.

Claims (1)

[Claims] (1) A corrosion prevention method for a steel structure inside a ballast tank, which comprises filling a space in a dedicated ballast tank of a ship with inert gas to purge air to reduce the oxygen concentration in the space.