Dielectric Coating, Casing, Or Section Patents (Class 204/196.16)
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Patent number: 11384438Abstract: In a method for cathodically protecting and/or passivating a metal section in an ionically conductive material such as steel reinforcement in concrete or mortar, an impressed current or sacrificial anode is mounted on the metal reinforcing bar by attaching a nut member having a female thread to the metal reinforcing bar by elongate flexible wires attached to the nut member so that the nut member and wires encircle the metal reinforcing bar and rotating a threaded rod member carrying the anode body into the female thread so that a forward end of the rod member engages with a front face of the metal reinforcing bar and pulls on the nut member away from the metal reinforcing bar to tension the wrapping wires.Type: GrantFiled: November 5, 2019Date of Patent: July 12, 2022Inventors: David William Whitmore, Tobias Becker
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Patent number: 11054173Abstract: A method of constructing a water heater includes the steps of providing a tank having a metal interior tank wall and a heat exchanger positioned within the tank, coating the interior tank wall and the heat exchanger with a first layer comprising glass enamel, and coating a portion of the first layer with a second layer comprising an organic polymer to protect the portion of the first layer from exposure to water in the tank.Type: GrantFiled: December 5, 2018Date of Patent: July 6, 2021Assignee: A. O. Smith CorporationInventors: Ming C. Kuo, Nathaniel Arnell Rose, Brittney Nicole Voss, David Andrew Wallace, Bandar M. Hamada, John L. Porter, IV
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Patent number: 10995410Abstract: An apparatus may mount an in-stream, continuous contact, visible, sacrificial anode in a fluid passage for the electrolytic corrosion protection. The apparatus may function to protect heat exchangers and/or other metallically connected system components that share contact with electrolytically active fluids. The apparatus may consist of an in-line anode cartridge including a collar body and a viewing port. The apparatus may include a site glass and compression fittings which seals the device causing corrosive fluids to flow past a sacrificial anode. The apparatus may include a visual indicator and an elastically compressed member (e.g., spring) which facilitate continuous metallic/electrical contact and inspection of the anode through the viewing port without system shut down or disassembly. The elastically compressed member and gauge assembly fills the view-ports with a bright indicator as the anode dissolves and the elastically compressed member expands.Type: GrantFiled: September 12, 2018Date of Patent: May 4, 2021Assignee: Packless IndustriesInventor: Scott Coleman Zifferer
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Patent number: 10745811Abstract: In a method for cathodically protecting and/or passivating a metal section in an ionically conductive material such as steel reinforcement in concrete or mortar, an impressed current or sacrificial anode communicates ionic current to the metal section and a storage component of electrical energy which can be a cell, battery or capacitor is provided as a component of the anode. The storage component can have replacement energy introduced by re-charging or replacing the component from an outside supply. Typically the cell or storage capacitor has an outer case which carries an anode material as an integral outer component. A mechanical clamp is provided to attach the assembly to a rebar. A current limiter is provided which prevents excess current draining the supply.Type: GrantFiled: July 7, 2017Date of Patent: August 18, 2020Assignee: Vector Remediation Ltd.Inventors: David William Whitmore, Tobias Becker
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Patent number: 9115430Abstract: A method and device for facilitating maintenance of an anode of a marine engine cooling system, the device including an anode for use with an anode plug such as, for example, an anode plug that has a detachable component with a threaded end for mounting to a threaded bore of a cooling system structure, and a connector that holds the anode, the anode having an indicator for indicating a condition of the anode which is indicative of a need to replace the anode The method permits changing the anode by removing and/or reinstalling an anode while preventing or minimizing water from exiting the cooling system of the marine engine.Type: GrantFiled: September 11, 2012Date of Patent: August 25, 2015Inventor: Alan McMullen
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Patent number: 7897031Abstract: An apparatus, system, method and computer program product directed to controlling corrosion, particularly space weather induced corrosion, of a conductive structure in contact with a corrosive environment and coated with a semiconductive coating, where the corrosion is controlled by a controllable filter and a corresponding electronic control unit configured to process and adjust the controllable filter in response to at least one measured parameter associated with space weather effects on the conductive structure.Type: GrantFiled: November 18, 2008Date of Patent: March 1, 2011Assignee: Applied Semiconductor International Ltd.Inventors: David B. Dowling, Farshad Khorrami, Joseph G. Michels, Mikhail Panasyuk
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Patent number: 7318889Abstract: An apparatus, system, method and computer program product directed to controlling corrosion of a conductive structure in contact with a corrosive environment and electrically connected to one or more anodes, wherein the anodes are less noble than the conductive structure, where the corrosion is controlled by a controllable filter and a corresponding electronic control unit configured to process at least one stored or measured parameter, and wherein the apparatus, system and method serve to prolong the lifetime of the one or more anodes by reducing, minimizing or substantially eliminating their sacrificial character.Type: GrantFiled: June 2, 2005Date of Patent: January 15, 2008Assignee: Applied Semiconductor International, Ltd.Inventor: David B. Dowling
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Patent number: 7198707Abstract: An apparatus and method for cathodic protection in an environment where thin film corrosive fluids are formed is provided. The apparatus which protects from corrosion an object exposed to the thin film corrosive fluids, by artificially adjusting a potential of the object, comprises a DC power supply of which cathode is electrically connected to the object to be corrosion-protected, and an anodic assembly of which anode is electrically connected to the DC power supply.Type: GrantFiled: February 12, 2003Date of Patent: April 3, 2007Assignee: Korea Power Engineering Co. Inc.Inventors: Hyun Young Chang, Gon Hwangbo, Tae Eun Jin, Min Yu Shin
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Patent number: 7081187Abstract: A cathodic protection system for internal surfaces of a pipeline is provided which includes a flexible anode assembly having a first and a second end and having at least one flexible anode wire having a first end and a second end. First and second removable pressure seal fittings are provided for the ends of the anode assembly that provide for electrical contact between the ends of the anode assembly and contacts outside of the internal volume of the pipeline. The system includes a DC power source where anode conductors are attached between the contacts and the DC power source. A second embodiment is provided that includes only a single pressure seal fitting.Type: GrantFiled: July 11, 2003Date of Patent: July 25, 2006Assignee: Matcor, Inc.Inventor: William R. Schutt
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Patent number: 7029569Abstract: An apparatus, system, method and computer program product directed to controlling corrosion of a conductive structure in contact with a corrosive environment and coated with a semiconductive coating, where the corrosion is controlled by a controllable filter and a corresponding electronic control unit configured to process at least one stored or measured parameter.Type: GrantFiled: November 2, 2004Date of Patent: April 18, 2006Assignee: Applied Semiconductor International Ltd.Inventors: David B. Dowling, Farshad Khorrami
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Patent number: 6890420Abstract: A semiconductor system is provided that uses semiconductive organic polymers, electronics and semiconductor technology to provide a wide array of semiconductor components and a system of preventing corrosion of a surface of a metal structure in contact with a corrosive environment involving: (a) a semiconductive organic polymer coating in conductive contact with at least part of the surface; and (b) an electronic filter for filtering corrosive noise and a method of preventing corrosion using the system.Type: GrantFiled: March 28, 2003Date of Patent: May 10, 2005Assignee: Applied Semiconductor, Inc.Inventor: David B. Dowling
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Patent number: 6811681Abstract: An apparatus, system, method and computer program product directed to controlling corrosion of a conductive structure in contact with a corrosive environment and coated with a semiconductive coating, where the corrosion is controlled by a controllable filter and a corresponding electronic control unit configured to process at least one stored or measured parameter.Type: GrantFiled: November 12, 2002Date of Patent: November 2, 2004Assignee: Applied Semiconductor International Ltd.Inventors: David B. Dowling, Farshad Khorrami
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Patent number: 6562201Abstract: A semiconductor system is provided that uses semiconductive organic polymers, electronics and semiconductor technology to provide a wide array of semiconductor components and a system of preventing corrosion of a surface of a metal structure in contact with a corrosive environment involving: (a) a semiconductive organic polymer coating in conductive contact with at least part of the surface; and (b) an electronic filter for filtering corrosive noise and a method of preventing corrosion using the system.Type: GrantFiled: June 25, 2001Date of Patent: May 13, 2003Assignee: Applied Semiconductor, Inc.Inventor: David B. Dowling
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Publication number: 20030085117Abstract: A corrosion protection device (“CPD”) for inhibiting corrosion of an air compressor collection tank, and relieving the pressure in the tank when excessive condensate accumulates within the tank. A relief passage extends through the plug, and an anode seals the relief passage near the interior volume of the tank. The tank, plug and anode are all coupled in an electrically conductive relationship, and a galvanic circuit is formed when condensate collects near the bottom of the tank. The anode has a lower redox potential than steel, and is preferably made from magnesium. The anode loses electrons with less resistance than the steel tank, so the anode will be consumed through the oxidation process before the steel tank corrodes. Once the anode is consumed so that it no longer seals the relief passage, the condensate and air are discharged from the tank through the relief passage.Type: ApplicationFiled: November 7, 2001Publication date: May 8, 2003Applicant: Ingersoll-Rand CompanyInventors: Charles Tillman Keller, William M. Lewis
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Patent number: 6524466Abstract: A system for preventing corrosion and/or fouling of a surface of a biomedical device in contact with a corrosive environment comprising: (a) a semiconductive coating in conductive contact with at least part of the surface; and (b) an electronic filter for filtering corrosive noise and a method of preventing corrosion and/or fouling using the system.Type: GrantFiled: July 18, 2000Date of Patent: February 25, 2003Assignee: Applied Semiconductor, Inc.Inventors: Joseph Bonaventura, Louis Ignarro, David B. Dowling, Arthur J. Spivack
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Patent number: 6514401Abstract: An anti-biofouling system adapted to be used for an underwater structure immersed in seawater is disclosed. The anti-biofouling system includes a conductive layer, comprising carbon fiber, graphite powder and binder, formed on a surface of the underwater structure for serving as an anode, a cathode, and a power supply for providing a current, thereby performing an electrolytic reaction for the anti-biofouling system such that a fouling organism is prohibited from attaching on the surface of the underwater structure.Type: GrantFiled: May 2, 2001Date of Patent: February 4, 2003Assignee: Taiwan Power CompanyInventors: San-Der Chyou, Wen-Chi Chiang, Ran Huang, Jiann-Kuo Wu
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Publication number: 20020134690Abstract: A concrete structure is reinforced with steel rebars coated with essentially pure aluminum in the range from about 0.25 mm to 2 mm thick upon which aluminum coating is an aluminum oxide layer in the range from 0.1 &mgr;m to 100 &mgr;m thick. This layer of aluminum oxide and/or hydrated aluminum oxide is referred to as a combined aluminum oxide layer, and it is in direct contact with the concrete.Type: ApplicationFiled: March 15, 2002Publication date: September 26, 2002Inventor: Efim Ya. Lyublinski
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Patent number: 6423208Abstract: Control of lead contamination in residential water supplies is accomplished by cathodic protection of lead-containing piping and lead-containing fixtures. Specifically, a partially insulated wire is inserted into lead-containing service lateral piping. Application of a DC current to the partially insulated wire causes the wire to act as an anode and transforms the walls of the pipe into the cathode, thereby protecting against corrosion. Alternatively, a sacrificial anode is inserted into a lead-containing fixture. The electrical potential generated by corrosion of this sacrificial anode transforms the walls of the fixture into a cathode thereby preventing corrosion. Carbonate scaling built-up prior to the initiation of cathodic protection may be removed by temporarily blocking the water pipe and introducing cleaning chemicals.Type: GrantFiled: August 9, 2000Date of Patent: July 23, 2002Inventor: Larry L. Russell
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Patent number: 6402933Abstract: A system for preventing corrosion of a surface of a metal structure in contact with a corrosive environment comprising: (a) a semiconductive organic polymer coating in conductive contact with at least part of the surface; and (b) an electronic filter for filtering corrosive noise and a method of preventing corrosion using the system.Type: GrantFiled: June 8, 2001Date of Patent: June 11, 2002Assignee: Applied Semiconductor, Inc.Inventor: David B. Dowling
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Patent number: 6325915Abstract: A system for preventing corrosion of a surface of a metal structure in contact with a corrosive environment comprising: (a) a semiconductive coating in conductive contact with at least part of the surface; and (b) an electronic filter for filtering corrosive noise and a method of preventing corrosion using the system.Type: GrantFiled: June 2, 2000Date of Patent: December 4, 2001Assignee: Applied Semiconductor, Inc.Inventors: David Dowling, Art Spivack
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Patent number: 6261439Abstract: A cathodic protection system utilizes dynamic control of an output from a power supply to vary an impressed current applied to a structure to be protected proportional to a measurement of stray electrical current. The current is also supplied to an anode bed in an amount sufficient to maintain the structure more negatively charged than the anode bed such that the stray electrical currents are directed away from the structure, thus avoiding electrolytic attack.Type: GrantFiled: October 29, 1999Date of Patent: July 17, 2001Inventors: Robert J. Schwabe, Alexey V. Poliakov, Earle C. Bascom, III, Oleg Zuev, Igor Chernienko, Yuri Ya. Iossel, John F. Troisi, Shalom Zelingher, Vladimir Fedorov, Vladimir Leonov
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Patent number: 6238545Abstract: An anode is embedded in an electrolyte layer applied to the surface of a structure such as a pipe section to provide an ionic conductive path between the anode and structure to supply cathodic protection to the structure, where the natural environment may not provide a continuous electrolyte. The anode is comprised of a material normally used as a cathodic protection anode material, such as, an expanded valve metal mesh or ribbon having either an electrochemically active coating or noble metal coating, or a sacrificial anode metal alloy. The anode material is made continuous from one end of the structure to the other and may be connected to a common bus wire from one end to the other. The anode and structure to be protected are connected using wires to a DC power supply that causes cathodic protection current flow to the structure in the case of an impressed current system. No separate power supply is needed in the case of a galvanic or sacrificial anode system.Type: GrantFiled: August 2, 1999Date of Patent: May 29, 2001Inventors: Carl I. Allebach, Albert A. Smith, Walter T. Young