DE19960037A1 - Method and device for preventing fouling in sea boxes and sea water systems on ships, offshore platforms, etc. - Google Patents

Abstract

The invention relates to a method and a device on ships, offshore-platforms, etc. for protecting against organism growth in complete seawater systems, operated on the basis of briefly raising the temperature of a volume of water (1) which is isolated by a mechanical closure system (4, 12). The brief temperature increase destroys the growth of organisms or their larvae without the need for toxic, environmentally damaging substances. Once the closure system has been opened, the normal cooling operation is resumed. The waste heat from the motor is used to raise the temperature for short periods of time. The mechanical closure of a sea-case is described as an application example. In cooling systems, comprising several circuits, joined by a mixing tank, each sub-circuit can be heated separately for a brief period, using the assembly of different heat exchangers and the integrated control and regulatory systems, thus preventing organism growth.

Description

The invention relates to a method and a device Ships, offshore platforms etc. for the protection of Components such as filters, fittings, pipes, heat exchangers, Pumps, sea chest coolers and Ä., the sporadically or constantly in open sea boxes and sea water systems in contact with Lake water are targeted for local and short-term Overheating of the enclosed lake water to the vegetation these components by organisms and their larvae, such as To avoid barnacles, mussels and moss animals, according to patent DE 199 21 433.6-22.

The growth on ships, parts of ships and in piping systems and their components is not least due to the increased water pollution has risen rapidly. It will tried this internationally through various methods Reduce or avoid fouling.

In DE patent application 199 21 433.6-22 a method and a device on ships, offshore platforms etc. for  the protection of components such as filters, fittings, pipes, Heat exchangers, pumps, sea chest coolers and. Ä., the sporadically or constantly in open sea boxes and sea water systems in Are in contact with sea water, for targeted local and short timely overheating of the enclosed lake water to the Overgrowth on these components by organisms such as barnacles, Mussels, moss animals and their larvae, proposed where a short-term and repeatable thermal overheating of the included lake water takes place. If necessary a rinsing of the sea case with a Installations with fresh water before or after finishing the local one temporary overheating.

The device for performing the method is thereby characterized that openings in the sea chest, for example Outlet and / or inlet slots, individually or by means of closures sen, for example, in the outer skin of the ship are arranged together or mechanically closed individually become. The closure can be a blind or an elastic, slidable plate by a single or common drive can be moved.

The disadvantage of this invention is that only the Sea chest alone can be protected from fouling. This is however, often only a part of the entire sea water system.

The stated invention is based on the object advanced, effective process and an advanced Device for inhibiting and preventing fouling on the complete Sea water system with pipes, filters, heat exchangers, Faucets, pumps, sea box coolers, in sea boxes are sporadic or in constant contact with sea water for To develop ships, offshore platforms etc.

According to the invention, this object is achieved by the Claims 1 to 4 listed features solved.  

The advantage of the invention lies in the growth in sections protection of sea water systems by creating part systems compared to the solution of the main patent (DE Aktz .: 199 21 423.6-22).

The invention is described below using an exemplary embodiment explained in more detail. The attached drawing shows the basic circuit structure of the sea boxes in mutual Maritime and cleaning company.

According to the figure, the sea water system consists of the sea boxes 1 A; 1 B, each of which is arranged on the port and starboard side, and via fittings and / or ducts with built-in shut-off fittings 21 ; 22 , pumps 20 and the mixing tank 19 are effektver connected. The fittings 21 ; 22 and the blinds 4 A; 4 B in the sea boxes 1 A; 1 B open.

In port or at anchor, when reduced speed of the ship is being driven, or during the time spent, the seawater is system by closing the jalousie 4 B in the sea chest 1 B and opening the associated shut-off valve 22 B and the valve 22 A in the active sea chest 1 A divided into the passive subsystem B - cleaning operation - and the active subsystem A - marine operation. Now the sea box 1 B with the associated connecting pipes, fittings 21 B; 22 B, box coolers 2 B pumps 20 B locally limited and briefly overheated thermally and thus protected against growth by microorganisms, macro organisms and their larvae.

After cleaning operation in the sea box 1 B has ended, this subsystem is switched to sea mode by opening the blind 4 B. The sea box 1 A previously active in sea operation is now switched to cleaning operation in accordance with the above procedure. Subsystem A is now also limited locally to prevent fouling and briefly overheated thermally.

Other sea boxes and reed tubes connected with them cations can be made in sections in an analogous manner Fouling are protected.  

Reference list

1

A sea chest, active

1

B sea chest, passive

2nd

A; B box cooler

4th

A sea chest blind, open

4th

B Sea chest blind, closed

8th

Inlet slots

11

Guide rail

19th

Mixing tank

20th

A Sea water circulation pump, active

20th

B Sea water circulation pump, passive

21

A; B shut-off valves, sea flow, active; passive

22

A; B shut-off valves, sea return, active; passive

Claims (5)

1.Procedures to prevent fouling by barnacles, mussels and other fouling organisms in sea boxes and their components, in particular sea box coolers, such as are used on ships and offshore platforms, by means of locally limited, short-term and regularly repeatable, thermal overheating of the enclosed sea water, according to patent application DE 199 21 433.6-22, characterized in that in several sea boxes ( 1 A; 1 B) of a sea water system with the pipes and ducts connecting them effectively as well as the components installed in the sea water system, such as sea box coolers ( 2 A; B), pumps ( 20 A; 20 B) and fittings ( 21 A, 21 B; 22 A; 22 B) sections of the enclosed sea water are temporarily and locally limited, regularly thermally overheated, so that the entire sea water system is partially protected from fouling by the overheated enclosed sea water. 2. Device for performing the method according to claim 1, characterized in that individual sea boxes ( 1 A; 1 B) of a sea water system and the pipes and ducts connecting them, as well as the components installed in the sea water system, such as sea box cooler ( 2 A; B), pumps ( 20 A; 20 B) and fittings ( 21 A, 21 B; 22 A; 22 B) form separate subsystems, so that short-term and locally limited, regular thermal overheating of the enclosed sea water takes place, thereby protecting the entire sea water system in sections from fouling becomes. 3. Device according to claim 2, characterized in that the subsystems in an active subsystem (sea operation) and in a passive subsystem (cleaning company) are divided.   4. Device according to claims 2 and 3, characterized in that an active subsystem by open blinds ( 4 A) in the active sea box ( 1 A) and closed shut-off valve ( 21 A) and closed shut-off valve ( 21 B) in the passive sea box ( 1 B ) is formed. 5. Device according to claims 2 and 3, characterized in that a passive subsystem by closed blinds ( 4 B) in the passive sea box ( 1 B) and open shut-off valve ( 22 B) and open shut-off valve ( 22 A) in the active sea box ( 1 A ) is formed.