KR937000698A - Methods and apparatus for preventing and / or corrosion of structures in seawater, brine and / or freshwater - Google Patents

Abstract

No content.

Description

Methods and apparatus for preventing and / or corrosion of structures in seawater, brine and / or freshwater

Since this is an open matter, no full text was included.

1 is a view of a ship equipped with a pollution prevention device of the present invention,

2 is a perspective view of a capacitor bank used in the present invention.

Claims (26)

(a) a structure having a conductive zinc-containing surface suitable for contact with seawater, brine, fresh water or mixtures thereof, and (b) (b1) means for inducing and retaining pure capacitive charges on the surface of the structure, Or (b2) means for inducing and maintaining an asymmetric electrostatic potential sufficient to prevent corrosion or contamination of the structure on the surface of the structure, wherein the structure is made of zinc or a zinc containing alloy, or is conductive Or made of a non-conductive material, wherein at least a portion of the structure is coated with a conductive salt-containing surface layer or a conductive zinc-containing coating, wherein the zinc-containing surface layer and the coating are between the structure and the water when the structure is in contact with the water. An interfacial layer thereon, the means consisting of one or more condenser banks attached to the structure, The one or more condenser banks are protected from contact with the water when a composition is in contact with the water, and the means for inducing and maintaining a pure capacitive charge is provided in the water when the structure is in contact with the water. And at least one bare metal surface that is electrically exposed, wherein the zinc containing surface is electrically positive for the bare metal surface. The system of claim 1 consisting of said means for inducing and maintaining a capacitive charge. The system of claim 1 consisting of said means for inducing an asymmetric alternating electrostatic potential. The system of claim 1, wherein the structure consists of a ship's hull, pipe, screen, bar, expanded mesh, perforated sheet, expanded sheet, sheet or wire. The system of claim 1, wherein the zinc containing surface further comprises silicate, iron oxide, ferric phosphide, or mixtures thereof. (a) a hull having a conductive zinc containing surface, and (b) (b1) means for inducing and retaining a capacitive charge on the surface of the hull, or (b2) the surface of the hull surface on the surface of the hull. Means for inducing and maintaining an asymmetric alternating electrostatic potential sufficient to prevent corrosion or contamination, wherein the hull is made of zinc or a zinc containing alloy, or made of a conductive or non-conductive material, and the ship is A conductive zinc containing surface layer or conductive zinc containing coating is applied to at least a portion of the submerged hull, if any, wherein the conductive zinc surface layer and coating form an interfacial layer between the water and the conductive hull, the means being applied to the hull. One or more condenser banks attached, the one or more when the hull is at least partially submerged in the water The denser bank is protected from contact with the water, and the means for inducing and maintaining a pure capacitive charge consists of at least one bare metal that is electrically exposed to the water when the structure is in contact with water, An improved vessel in which the zinc containing surface is electrically positive for the bare metal surface. 7. A ship according to claim 6, comprising said means for inducing and retaining a capacitive charge. 7. A ship according to claim 6, comprising said means for inducing an asymmetric alternating electrostatic potential. The ship of claim 6 wherein said zinc containing surface further comprises silicate, iron oxide, ferric phosphide, or mixtures thereof. A structure having a surface in contact with seawater, brine, fresh water, or mixtures thereof, wherein (a) the structure has a conductive zinc containing surface, and the structure is made of zinc or a zinc containing alloy, or a conductive or nonconductive material And a conductive zinc-containing surface layer or a zinc-containing coating thereon, wherein the conductive zinc-containing layer and coating form an interfacial layer between the structure and the water, and (b) the structure is (b1) the surface Means for inducing and maintaining a capacitive charge on the phase, or (b2) means for inducing and maintaining an asymmetric alternating electrostatic potential sufficient to prevent corrosion or contamination of the structure on the surface, the means Is composed of one or more condenser banks attached to the structure and protected from contact with the water, The means for inducing and maintaining a capacitive charge consists of at least one bare metal surface electrically exposed to the water when the structure is in contact with the water, the zinc containing surface being electrically connected to the bare metal surface. Improved constructs that are positive. The system of claim 10, wherein said means for inducing and maintaining a capacitive charge. 12. The structure of claim 11 consisting of said means for inducing and maintaining an asymmetric alternating electrostatic potential. The structure of claim 10, wherein the zinc containing surface further comprises silicate, iron oxide, ferric phosphide, or mixtures thereof. A method for preventing contamination or corrosion of structures having surfaces in contact with seawater, brine, fresh water or mixtures thereof, which is made of zinc or zinc alloy, or made of conductive or non-conductive material, and containing zinc or surface layer Containing coating is applied, wherein the conductive zinc containing layer and the coating have a conductive zinc containing surface that forms an interfacial layer between the conductive structure and the water, further comprising (a) contacting the water To induce and maintain a capacitive charge sufficient to prevent the contamination or corrosion on the surface of the structure, or (b) an asymmetric alternating current sufficient to prevent the contamination or the corrosion on the conductive zinc containing coating. Inducing and holding an electrostatic potential, inducing the capacitive charge B or means for inducing said asymmetric alternating electrostatic potential, using means consisting of at least one bank of capacitors attached to said structure protected from contact with said water and inducing and maintaining pure capacitive charge Said means for consisting of at least one bare metal surface electrically exposed to said water when said structure is in contact with said water, wherein said zinc containing surface is electrically positive for said bare metal surface. 15. The method of claim 14, wherein the zebra hair plate muzzle prevents contamination of the structure. 15. The method of claim 14, consisting in inducing said capacitive charge. 15. The method of claim 14, comprising inducing said asymmetric alternating current electrostatic potential. The method of claim 14, wherein the zinc containing surface further comprises silicate, iron oxide, iron phosphide, or mixtures thereof. A system for preventing contamination or corrosion of the outer surface (s) of a structure that may come into contact with the aquatic environment, the structure having an inner surface and a conductive zinc containing outer surface, wherein the structure is made of zinc or a zinc containing alloy or Or is made of a conductive or non-conductive material and is coated with a conductive zinc containing surface layer or zinc containing coating and wherein the structure is in contact with the aquatic environment, the zinc containing surface layer or coating is an interface between the outer surface and the aquatic environment. Forming a layer, the system induces at least a portion of the outer surface in contact with the aquatic environment sufficient capacitive charge to prevent contamination or corrosion of the outer surface when the outer surface is in contact with the aquatic environment. And means for holding the outer surface conductively contacting the outer surface. A power supply source having a first polar terminal and a reverse polarity terminal capacitively connected to the outer surface, wherein both the power source and the capacitive connecting means are protected from contact with the underwater environment, Said means for inducing and maintaining consists of at least one bare metal surface electrically exposed to said water when said structure is in contact with said water, said zinc containing surface being electrically positive for said bare metal surface. 20. The system of claim 19, wherein both the power source or the capacitive connection means are located inside the marine structure. 20. The system of claim 19, wherein the structure is a hull, pipe, screen, sheet, bar, expanded mesh, perforated sheet, expanded sheet, or wire. A method for preventing contamination or corrosion of the outer surface (s) of a structure that may come into contact with the aquatic environment, comprising the use of a structure having an inner surface and a conductive zinc containing outer surface, the structure being a zinc or zinc containing alloy Or a zinc-containing surface layer or zinc-containing coating formed of a conductive or non-conductive material and forming an interfacial layer between the outer surface and the water, the method further comprising contacting the water Consisting of inducing and retaining a capacitive charge on at least a portion of the outer surface, wherein the capacitive charge is sufficient to prevent the contamination or corrosion, and the capacitive charge is electrically connected to the outer surface of the first Means comprising a power supply having a polarity terminal and an opposite polarity terminal capacitively connected to said outer surface Guided and retained by both the power source and the capacitive connection means are protected from contact with the aquatic environment, and the means for inducing and maintaining pure capacitive charges when the structure is in contact with the water. And at least one bare metal surface electrically exposed to the water, wherein the zinc containing surface is electrically positive for the bare metal surface. 23. The method of claim 22, wherein the zebra hair plate muzzle prevents contamination of the structure. 23. The method of claim 22 wherein both the power source and the capacitive connecting means are located inside the structure. The method of claim 22, wherein the structure is a vessel, pipe, screen, sheet, bar, expanded mesh, perforated sheet, expanded sheet or wire. The method of claim 22, wherein the zinc containing surface further comprises silicate, iron oxide, ferric phosphide, or mixtures thereof. ※ Note: The disclosure is based on the initial application.