NL2001507C2 - Device e.g. pipe, protecting method for use in sea water, involves performing liquefaction of anode material, casting anode material in anode area, and hardening anode material - Google Patents

Abstract

The method involves defining an area for an anode in a device e.g. pipe, and performing liquefaction of anode material. The anode material is casted in the anode area, and the anode material is hardened, where one or more openings are provided in the area for the anode. An independent claim is also included for a device intended for use in sea water.

Description

METHOD FOR PROTECTING A DEVICE INTENDED FOR USE IN SEA WATER AGAINST CORROSION

The present invention relates to a method for protecting a device intended for use in seawater against corrosion, comprising the step of applying an anode of sacrificial material to the device.

According to the known method, the anode is fixed to the outside of the device by welding.

10 In the relevant field, the NORSOK standard has been developed, in which the requirements for cathodic protection for underwater installations and seawater compartments are formulated, as well as the production of sacrificial anodes (“Norsok Standard Cathodic Protection”, M-503, Rev. 2). , September 1997).

The invention has for its object to provide an alternative method of the type mentioned in the preamble, which meets the requirements of the Norsok Standard. The invention has for its object in particular to provide such a method for use with a protection device for cables or pipes. For this application, an important requirement is that the mechanical properties with regard to fracture stretchability, bending and corrosion must correspond to the operating time of the cable.

The method according to the invention is characterized by the following steps: a) Defining at least one area for the anode on the device; b) Liquidating anode material; C) Casting the anode material in the area; and d) Allow the anode material to cure.

By casting the anode material, it is reliably connected to the device and the anode device obtains the required mechanical properties.

According to a first preferred embodiment, step a) comprises the following step: Providing one or more openings in the area for the anode, which openings connect the outside of the device to the inside of the device. The anode material will flow through the openings from outside to the inside of the device, so that the anode forms both on the outside and on the inside of the device.

2

In a practical preferred embodiment, the anode region is defined by means of an attachment and step a) further comprises the following steps: 1) The provision of an attachment on the outside of the device, which attachment is provided with one or more recesses intended for recording of the anode material; and 2) Filling the recesses with anode material.

To cause the anode material to flow through the openings from the outside to the inside of the device, step a1) comprises the step of providing one or more openings in the one or more recesses in the accessory.

According to a further elaboration, step a1) comprises the step of integrating the accessory into the device. An integrated attachment meets the required mechanical properties.

The invention also relates to a device intended for use in (sea) water, in which the device is provided with at least one anode of sacrificial material, which is arranged by means of the method according to the invention.

In a first preferred embodiment the anode comprises a first part which is arranged on the outside of the device and a second part which is arranged on the inside of the device. The cathodic protection then occurs both on the outside and on the inside of the device. The first and the second part are preferably in communication with each other, so that a continuous effect is obtained.

In a practical preferred embodiment the device is provided on the outside with an accessory, which accessory is provided with one or more recesses, in which the anode material is located. The accessory is preferably integrated in the device.

The invention will be discussed in more detail below with reference to the drawings, in which:

Figure 1A schematically shows a device according to the state of the art with exploded parts;

Figure 1B shows the device of Figure 1A with assembled parts;

Figure 1C shows a number of devices connected in series from Figures 1A and 1B; 3

Figure 1D shows three devices connected in series from Figure 1B;

Figure 2A shows a part of a first preferred embodiment of a device according to the invention in top view;

Figure 2B shows the part of the device from Figure 2A in bottom view; Figure 3A shows the device of figure 2A with exploded parts in top view; and

Figure 3B shows the device of figure 3A in bottom view.

In the figures, the same reference numerals denote the same parts.

Figure 1A schematically shows a device according to the state of the art with exploded parts. Figure 1B shows the device with assembled parts. Figure 1C shows a number of devices connected in series. Figure 1D shows three devices connected in series from Figure 1B.

In the shown preferred embodiment the device is a protection device for cables or pipes as described in the European patent EP1616377 of the same applicant.

The known device for protecting cables or pipes consists of a number of identical pipe halves 2, which are made from a material suitable for seawater. Combined, two pipe halves 2 form a pipe element 4. These pipe elements are connected to each other in series and form a pipe in which a cable 6 or a pipe (e.g. a water or gas pipe) is included and is protected against damage.

The pipe elements 4 have a spherical segment 8 at a first end and a funnel-shaped segment 10 at a second end. The pipe elements 4 are connected to form a pipe in that two pipe halves 2 are joined such that the funnel-shaped segment 10 of a first pipe element is joined by the spherical segment 8 of a second pipe element is received and retained.

The installation of the known device must be possible for divers in the water after laying the cable or pipe in question or on board installation vessels during the laying of the cable or pipe in question.

Figure 2A shows a part of a first preferred embodiment of a device according to the invention in top view. Figure 2B shows the part of the device from Figure 2A in bottom view. Figure 3A shows the device from Figure 2A with exploded parts in top view and Figure 3B shows the device from Figure 35 3A in bottom view.

4

According to the invention, at least one pipe half 2 of the known device is provided with an anode 3 of sacrificial material, which is arranged by means of the method according to the invention, which will be explained in more detail below. The pipe half 2 is provided on the outside with an accessory 5 with a recess 7, in which the anode 3 is located. The accessory 5 is further provided with openings 5A in the recess 7. The accessory 5 is preferably integrated in the pipe half 2. The pipe half 2 is provided on the inside with a recess 2A, into which the anode 3 extends.

The anode 3 comprises a first part 3A, which is arranged on the outside of the pipe half 2 in auxiliary piece 5. The anode 3 comprises a second part 3B, which is located on the inside of the pipe half 2 in the recess 2A. The first part 3A and the second part 3B are in communication with each other by means of narrowings 3C the size of the openings 5A.

The anode 3 is provided for protection against corrosion and comprises suitable sacrificial material. Some examples of suitable anode material are aluminum, zinc or alloys thereof.

The anode 3 is provided by the method according to the invention, which comprises the steps below.

In a first step, an area for the anode 20 is defined on the pipe half 2. One or more openings are provided in the area, which openings connect the outside of the pipe half with the inside of the pipe half. In the preferred embodiment shown, the area is defined by mounting an attachment 5 on the outside of the pipe half. The through openings are formed by an opening 2A in the pipe half, which cooperates with openings 5A, which are arranged in the fitting.

The anode material is liquefied and poured into the area where it can then cure. Suitable techniques are known for this in the relevant field.

In the preferred embodiment shown, the anode material is poured into recess 7 of the accessory 5. The anode material flows through openings 5A and recess 2A to the inside of the pipe half 2. In order to obtain a smooth anode surface, a suitable mold for the pipe half is preferably used during processing.

The accessory 5 is preferably integrated in the device, for example by casting it along with the pipe half. In general, all materials suitable for seawater can be used for this, including, for example, ductile iron (ductile cast iron). The accessory 5 preferably has a smooth surface which is free from sharp edges and protruding corners or edges from the outside.

The invention is of course not limited to the described and shown preferred embodiment. The number of anodes per device is for example not limited to one, but can be expanded as desired.

It is further noted that, although the device and method according to the invention have been elucidated with reference to the protection device from EP1616377, the invention is not limited to application with this specific protection device, but is suitable for application with all types of protection devices, and in addition for use in many other types of establishments, intended for use in (sea) water.

The invention therefore extends generally to any embodiment that falls within the scope of the scope of protection as defined in the claims viewed in the light of the foregoing description and accompanying drawings.

Claims (10)

Method for protecting a device intended for use in (sea) water against corrosion, comprising the step of applying an anode of sacrificial material to the device, characterized by the following steps: at least one region for an anode on the device; B) Liquidating anode material; c) Casting the anode material in the area; and d) Allow the anode material to cure. Method according to claim 1, wherein step a) comprises the following step 15: Providing one or more openings in the area for the anode, which openings connect the outside of the device to the inside of the device. 3. Method according to claim 1 or 2, wherein step a) further comprises the following steps: 1. The fitting of an accessory on the outside of the device, which accessory is provided with one or more recesses, which are intended for receiving the anode material; 2. Filling the recesses with anode material. 25 The method of claim 3, wherein step a1) comprises the step of providing one or more openings in the one or more recesses in the attachment. 5. A method according to claim 3, wherein step a1) comprises the step of integrating the accessory into the device. б) Device intended for use in (sea) water, wherein the device is provided with at least one anode of sacrificial material, which is arranged by means of the method according to one of the preceding claims. 7. Device as claimed in claim 6, wherein the anode comprises a first part 5 which is arranged on the outside of the device, and a second part which is arranged on the inside of the device. Device as claimed in claim 7, wherein the first and the second part are in communication with each other. 10 Device as claimed in claim 6, 7 or 8, wherein the device is provided on the outside with an attachment, which attachment is provided with one or more recesses, in which the anode material is located. 10. Device as claimed in claim 9, wherein the accessory is integrated in the device. Device as claimed in any of the foregoing claims 6 to 10, wherein the device is a protection device for cables or pipes.