For Corrosion Patents (Class 205/775.5)
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Patent number: 6797149Abstract: An electrochemical scale detection and control system, for on-line detection and control of nucleation and growth of inorganic scales. The system comprises sensitive microprocessor controlled electrochemical monitoring instrumentation for detecting electrochemical changes which occur as a consequence of scale nucleation, growth and removal, with subsequent processing to provide means of controlling scale inhibitor additions. The device takes measurements continuously and provides uninterrupted output of the scaling tendency. A three-element measurement probe consisting of material having little propensity for corrosion in the scaling medium of interest is used as the scale sensor.Type: GrantFiled: April 2, 2002Date of Patent: September 28, 2004Assignee: Intercorr Holdings, Ltd.Inventor: David A. Eden
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Patent number: 6776889Abstract: A corrosion monitor comprising electronic circuitry arranged such that DC current flowing between two electrodes is reduced to essentially zero, while allowing any naturally occurring AC current noise to flow unhindered and be monitored by the instrumentation. The two electrodes consist of one inert reference electrode, and one electrode constructed of the material to be monitored (the working electrode). Even though the two electrodes will have different galvanic potentials, by reducing the DC current to zero the electronic circuitry is able to avoid galvanic effects. Furthermore, the voltage potential can be monitored between the inert current reference electrode, and a third electrode also constructed of an inert material. As corrosion activity occurs on the working electrode, both current noise and voltage noise may then be monitored simultaneously.Type: GrantFiled: June 7, 2002Date of Patent: August 17, 2004Inventor: Eric Atherton
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Publication number: 20040149594Abstract: The present invention provides a method and apparatus for estimation of general and localised corrosion penetration rates of metallic materials and objects. The invention can also be used to discriminate between general and localised corrosion. A one, two or three electrode probe having electrodes (101, 102, 103) made of the same material as the material being monitored is located in the same corrosive environment as the material being monitored. An electrochemical harmonic analysis is performed and electrochemical noise signals are monitored, and the resulting responses are analysed and compared to discriminate between general and localised corrosion attack and to determine a localised corrosion penetration rate. A law frequency sine wave is applied to the working electrode. Harmonic analysis of the electrode response provides information regarding the general corrosion rate and the stern-geary constant.Type: ApplicationFiled: March 24, 2004Publication date: August 5, 2004Inventor: David Anthony Eden
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Patent number: 6683463Abstract: A sensor array for measuring localized corrosion based on electrochemical reactions is disclosed. The sensor has an array of electrodes that are made from the material of interest. The electrodes are electrically insulated from each other and arranged so that a small area of the electrode contacts a corrosive environment. The voltage outputs across the electrodes connected to the electrodes are measured and used as the signals to indicate localized corrosion.Type: GrantFiled: March 26, 2002Date of Patent: January 27, 2004Assignee: Southwest Research InstituteInventors: Lietai Yang, Narasi Sridhar
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Patent number: 6646427Abstract: The chloride corrosion threshold of a metal embedded in a cementitious structure is determined in an accelerated manner by using an electric field to increase the rate of migration of chloride ion into the structure and monitoring the interface between the metal and the cementitious material to detect the onset of corrosion, then determining the chloride corrosion threshold, which is defined as the chloride content of the cementitious material once corrosion has begun. This determination can be performed over a time period of as little as 2 to 3 weeks rather than the months or years required by conventional chloride corrosion test procedures.Type: GrantFiled: May 1, 2002Date of Patent: November 11, 2003Assignees: MMFX Steel Corporation of America, The Texas A&M University SystemInventors: David Trejo, David R. Miller
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Publication number: 20030183536Abstract: An electrochemical scale detection and control system, for on-line detection and control of nucleation and growth of inorganic scales. The system comprises sensitive microprocessor controlled electrochemical monitoring instrumentation for detecting electrochemical changes which occur as a consequence of scale nucleation, growth and removal, with subsequent processing to provide means of controlling scale inhibitor additions. The device takes measurements continuously and provides uninterrupted output of the scaling tendency. A three-element measurement probe consisting of material having little propensity for corrosion in the scaling medium of interest is used as the scale sensor.Type: ApplicationFiled: April 2, 2002Publication date: October 2, 2003Inventor: David A. Eden
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Publication number: 20030183537Abstract: A method for monitoring and reducing corrosion in superheater and reheater furnace tubes measures electrochemical activity associated with corrosion mechanisms while corrosion is occurring at the surface of the tubes as they are exposed to combustion products. A sensor containing two electrodes spaced apart by an insulator is used. The surface of a boiler tube is one of the electrodes. The sensor is connected to a corrosion monitor. The monitor contains a computer and software, which determines a corrosion rate from the measured electrochemical activity. That rate is compared to a standard to determine if the rate is within acceptable limits. If not, the furnace operator of the furnace or an Adaptive Process Controller (APC) adjusts one or more burners to change the combustion products that are responsible for the corrosion.Type: ApplicationFiled: April 2, 2002Publication date: October 2, 2003Inventors: David Eden, Bernard P. Breen, James E. Gabrielson, Robert Schrecengost, Mark Valvano
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Patent number: 6623616Abstract: A monitoring method and system to monitor an environment in which an object is located includes monitoring one or more environmental factors associated with corrosion of materials in the environment. Thereafter, an exposure index representative of cumulative exposure of the object to the one or more environmental factors is determined. For example, such environmental factors may include chloride ion concentration, pH level, humidity, and temperature.Type: GrantFiled: April 26, 2000Date of Patent: September 23, 2003Assignee: Honeywell International Inc.Inventors: Frederick S. Malver, Paul L. Gibson, Ronald H. Jiracek, Darryl G. Busch
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Patent number: 6610185Abstract: A sensor for measuring electrochemical corrosion potential, and a method for manufacturing a sensor, the sensor comprising a tubular ceramic probe having a closed tip at one end, the probe at least partially filled with a powder comprising metal and metal oxide; a metal support tube having one end receiving an opposite end of the probe, and joined thereto by a braze joint therewith; an electrical conductor extending through the support tube and into the probe, and having an end buried in the powder for electrical contact therewith; and a protective band bridging the probe and tube at the joint for sealing thereof, the protective band consisting essentially of a metallic coating.Type: GrantFiled: October 10, 2001Date of Patent: August 26, 2003Assignee: General Electric CompanyInventors: Young-Jin Kim, Reed Roeder Corderman, Peter Louis Andresen, Scott Andrew Weaver, Paul Joseph Martiniano
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Patent number: 6582587Abstract: Numerical techniques such as the finite element method (FEM) are used to model the current and voltage distribution in concrete structures such as bridges. The geometric arrangement of groundbeds and the ideal locations for the electrical contacts vis-a-vis the geometry of the bridge and the rebars can thereby be predicted and a cathodic protection (CP) system for the bridge designed. A magnetic sensor is used to sense the magnetic field generated by the CP current, and a voltmeter or an oscilloscope to measure the output of the magnetic sensor. A current interrupter is also used to interrupt the CP current at the source. The current is mapped by placing the magnetic sensor on or above the concrete surface. By moving the sensor from one location to another, the current is mapped over the entire structure. To achieve uniform distribution over the entire structure, an “expert” CP system controlled by a variety of current and environmental sensors and a dedicated microprocessor is described.Type: GrantFiled: February 13, 1997Date of Patent: June 24, 2003Assignee: The Johns Hopkins UniversityInventors: Rengaswamy Srinivasan, Periya Gopalan, Paul R. Zarriello
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Publication number: 20030085136Abstract: The invention concerns a sensor and a method for detecting microbiologically induced corrosion in a metal structure, which consists in performing the following steps: providing a sensor comprising at least a first circular electrode (4) and a ring-shaped electrode (2) concentric with the first electrode, proximate to the structure (30) in contact with a corrosive medium; imparting for a time interval t a conditioning current between the two electrodes so as to initiate corrosion, the current being such that the central electrode is cathode and the ring-shaped electrode is anode; after the time interval t, coupling the two electrodes and measuring the current between the two electrodes; calculating the speed of corrosion from the measurement.Type: ApplicationFiled: October 29, 2002Publication date: May 8, 2003Inventors: Remy Marchal, Nicolas Monfort-Moros, Dominique Festy, Bernard Tribollet, Isabelle Frateur
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Publication number: 20030010634Abstract: A method for the in situ measurement of atomic hydrogen permeation into carbon steel from process streams under operating conditions of up to 3000 psi and temperatures up to 300° F. includes providing a probe assembly having a test specimen electrode and a negatively charged counter electrode in a fluid-tight reservoir containing an electrolyte, applying a constant voltage across the electrodes, and mounting the probe assembly directly in contact with the process stream inside of a pipeline and passing electrical conductors from the probe through a supporting electrically non-conductive isolator positioned between the mounting assembly and the probe in order to directly measure and record permeation current flow between the probe electrodes.Type: ApplicationFiled: July 16, 2002Publication date: January 16, 2003Inventors: Arnold L. Lewis, John K. Boah
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Publication number: 20030006148Abstract: The present invention relates to a method and an apparatus for measuring accumulated and instant rate of material loss or material gain of metal elements for the detection of metal deposition (material gain) caused for example during deposition of coatings used in plating processes and corrosion (material loss) caused for example in pipelines during transportation of hazardous media. The apparatus and the method provides means for measuring accumulated and instant rate of material loss or material gain by inserting a probe in a measurement environment causing a probe experience metal deposition or corrosion. Further the apparatus and the method provides means for performing a temperature independent measurement of accumulated and instant rate of material loss or material gain accomplished without use of a temperature sensor device.Type: ApplicationFiled: June 10, 2002Publication date: January 9, 2003Inventors: Kaj Vendelbo Nielsen, Lars Vendelbo Nielsen
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Patent number: 6501286Abstract: An electrode array device for use with a conductive element to simulate a crevice that is subject to corrosive conditions. The device includes a non-conductive member and a plurality of electrodes. The non-conductive member has a face, with the member defining (i) an opening through the member, the opening passing through the face of the member, and (ii) a depression formed in the face and contiguous with at least a portion of the opening. The plurality of electrodes is embedded in the member, with each of the plurality of electrodes having a portion exposed from the member to the depression.Type: GrantFiled: August 27, 2001Date of Patent: December 31, 2002Assignee: S. C. Johnson & Son, Inc.Inventors: Robert W. Balfanz, James E. Buhler, W. Stephen Tait
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Patent number: 6478948Abstract: A method for monitoring and reducing corrosion in furnace boiler tubes measures electrochemical noise associated with corrosion mechanisms while corrosion is occurring at the surface of the tubes as they are exposed to combustion products. This noise is detected using a probe at the boiler waterwall surface that is connected to a corrosion monitor. The monitor contains a computer and software which determines a corrosion rate from the measured electrochemical noise. That rate is compared to a standard to determine if the rate is within acceptable limits. If not, the operator of the furnace or an Adaptive Process Controller (APC) is notified and adjusts one or more burners to change the combustion products that are responsible for the corrosion. Such an adjustment could be made by changing the amount of air or fuel being provided to the burner or other air slots or air ports.Type: GrantFiled: February 26, 2001Date of Patent: November 12, 2002Assignee: ESA Corrosion Solutions, Ltd.Inventors: Bernard P. Breen, Dennis Tobias, David Eden, James E. Gabrielson, Ralph W. McConnell
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Patent number: 6419817Abstract: The present invention describes an apparatus for the optimized control of various treatment chemicals (inhibitors) applied for corrosion and/or deposit inhibition. The apparatus consist of a microprocessor system that controls inhibitor concentrations as a result of processed inputted data. The inputted data includes, but is not limited to values consistent with the monitoring of Electrochemical Noise, Linear Polarization Rate, heat transfer, concentrations of water treatment chemistry, critical water chemistry parameters, and critical operational characteristics.Type: GrantFiled: June 22, 2000Date of Patent: July 16, 2002Assignee: United States Filter CorporationInventor: Roy Martin
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Patent number: 6391173Abstract: An electrochemical corrosion potential sensor includes a ceramic tip insulating member, and a sensor tip joined to the ceramic tip insulating member, the sensor tip comprising an alloy. Further, a coating is provided on an outer surface of the sensor tip, the coating including a noble metal, and a conductor electrically connected to said sensor tip.Type: GrantFiled: October 25, 1999Date of Patent: May 21, 2002Assignee: General Electric CompanyInventors: Young-Jin Kim, Prodyot Roy
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Patent number: 6365034Abstract: A high throughput electrochemical test method for determining the resistance to corrosion of a metal article coated with a resinous coating which comprises: (a) making, as the working electrode in an electrochemical cell which also comprises a reference electrode, a counter-electrode and an electrolytic solution, one or more metal articles comprising a plurality of coated areas thereon, with the proviso that a portion of the coating does not exist on the metal thereby allowing for the ultimate passage of electrical current to the metal without the coating being a barrier to such passage; (b) impressing a series of direct current electrical potentials upon each of the respective coated areas in sequence and upon the respective associated working electrode to enable current to flow between the metal article in the electrochemical cell and the counter-electrode; and (c) measuring the current flow as the direct current potential is varied relative to the reference electrode to generate a potentiodynamic scan oType: GrantFiled: October 27, 1999Date of Patent: April 2, 2002Assignee: Polymer Alloys LLCInventor: Peter J. Spellane
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Patent number: 6365035Abstract: The invention relates to a method for measuring the properties of a stack (15) that viscous molten salt forms on the bottom of a soda recovery unit (14) while black liquor is burned therein, and for measuring the corrosion of the materials of construction of the unit (14) during the operation thereof. In the method, at least one sensor means (11) is brought into contact with said stack (15), this sensor means (11) being electrically insulated from the soda recovery unit (14). In the method, at least some electrochemical properties and the temperature of said stack (15) are measured with this sensor means (11). The data measured with this sensor means (11) are fed to a measuring and data acquisition unit (12), and said measuring and data acquisition unit (12) is controlled by a control unit (13).Type: GrantFiled: June 30, 2000Date of Patent: April 2, 2002Assignee: Savcor Consulting OyInventors: Martti Pulliainen, Timo Laurila, Arttu Laitinen, Antero Heinävaara
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Patent number: 6355157Abstract: This invention describes a novel means of determining the nature (type) of corrosion in real-time. By identifying localized corrosion at the moment of pit initiation, real-time selection, and effective concentration(s) of appropriate inhibitor(s) can be delivered to an electrolytic solution before propagation of the localized corrosion. Integrating this information with a corrosion inhibitor feed system can effectively inhibit the corrosion before propagation occurs, thereby maintaining system integrity. The process embodies a method of operation wherein the electrochemical noise (ECN) and linear polarization (LPR) values are processed to compare how the corrosion signals correlate. Divergence of the corrosion rates indicates the formation of localized corrosion while continuity in signal pattern indicates generalized corrosion.Type: GrantFiled: June 22, 2000Date of Patent: March 12, 2002Assignee: United States Filter CorporationInventor: Roy Martin
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Patent number: 6294074Abstract: An electrode design is provided for corrosion monitoring using electrochemical noise measurements. Electrochemical probes are used for sensing electrochemical noise voltage values and electrochemical noise current values. The electrochemical probes include a pair of working electrodes formed of the same material of the monitored metal pipes or storage vessels and a reference electrode formed of a corrosion resistant material. Each of the pair of working electrodes has a defined surface roughness. One of the pair of working electrodes has reduced roughness, whereby sensitivity to sustained localized pitting corrosion is increased in the working electrode with reduced roughness. By reducing the surface roughness of one of the pair of working electrodes, increased sensitivity to sustained localized pitting corrosion is provided while the current noise can be used to accurately measure the general corrosion rate on the unpolished electrode.Type: GrantFiled: May 18, 2000Date of Patent: September 25, 2001Assignee: The University of ChicagoInventors: YuPo J. Lin, Edward J. St. Martin, James R. Frank, Daniel H. Pope
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Patent number: 6284125Abstract: A method for determining the concentration of a reduced (or oxidised) form of a redox species in an electrochemical cell of the kind comprising a working electrode and a counter electrode spaced from the working electrode by a predetermined distance, said method comprising the steps of: (1) applying an electric potential difference between the electrodes; (2) selecting the potential of the working electrode such that the rate of electro-oxidation of the reduced form (or electro-reduction of the oxidised form) of the species is diffusion controlled, (3) selecting the spacing between the working electrode and the counter electrode so that reaction products from the counter electrode arrive at the working electrode; (4) determining current as a function of time after application of the potential and prior to achievement of a steady state; (5) estimating the magnitude of the steady state current, and (6) obtaining from the change in current with time and the magnitude of the steady state current, a value indicatiType: GrantFiled: April 17, 1998Date of Patent: September 4, 2001Assignee: USF Filtration and Separations Group, Inc.Inventors: Alastair McIndoe Hodges, Thomas William Beck, Oddvar Johansen
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Patent number: 6281671Abstract: An electrode component group for a corrosion measuring system for detecting corrosion of a metal embedded in a construction component of ion-conducting material has a rod-shaped base body having a first flange member at a first end of base body and a second flange member at a second end of base body. The base body is insertable into the construction component with the first end leading. A plurality of spacer rings is positioned on the base body between the first and second flange members. The metal electrode rings and sealing rings are arranged alternatingly between the spacer rings. Each one of the metal electrode rings have an electrical line connected to a measuring circuit external to the construction component. The electrical lines are guided inside the metal electrode rings to the second end of the base body. A device for reducing a spacing between the first and second flange members is provided.Type: GrantFiled: August 19, 1999Date of Patent: August 28, 2001Inventors: Peter Schiessl, Michael Raupach, Klaus Kollberg
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Patent number: 6280603Abstract: The present invention relates to a unique electrochemical noise corrosion rate determination technique and system. The system employs a single working electrode, a counter electrode, a reference electrode, and a measurement system for determining potential between the working and reference electrodes and current between the working and counter electrodes. The technique comprises measuring the potential between the working and reference electrodes at open circuit over a given period of time, switching to potentiostatic control, measuring the current between the working and counter electrodes, and using the measured potential and current to determine the general corrosion rate and localized corrosion rates.Type: GrantFiled: December 9, 1999Date of Patent: August 28, 2001Assignee: Baker Hughes IncorporatedInventor: Vladimir Jovancicevic
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Patent number: 6278756Abstract: The invention relates to a sensor for a measuring an electrochemical corrosion potential comprising a sensor tip, a conductor electrically connected to the sensor tip, an insulating member which surrounds the conductor, a connecting member which surrounds the conductor; and a sleeve which fits over the sensor tip, the insulating member, and the connecting member, the sleeve having inner threads which engage with corresponding outer threads on at least one of the sensor tip and the connecting member.Type: GrantFiled: November 6, 2000Date of Patent: August 21, 2001Assignee: General Electric CompanyInventor: Young JinKim
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Patent number: 6275050Abstract: Apparatus and method to detect corrosion in metal junctions. Corroded metal junctions are usually discovered by visual inspection. The present invention detects corrosion in metal junctions when it is not visually apparent. A corroded metal junction acts as a nonlinear device. It generates harmonics and other nonlinear products (such as intermodulation) of any signals applied to the junction. The presence of relatively high level harmonics and/or intermodulation products indicates directly that corrosion has occurred. To detect corrosion in a metal junction, one couples a fundamental frequency signal (f0) into the junction and tests for harmonics of that frequency, especially the third harmonic. Harmonic frequency signals that are relatively large (i.e., above the harmonics generated by the testing system) indicate the presence of corrosion. Measurements to determine if a metal junction is corroded are performed without disturbing the junction.Type: GrantFiled: November 29, 1999Date of Patent: August 14, 2001Assignee: The United States of America as represented by the Secretary of the Air ForceInventors: Frank H. Born, John E. Dodge, William G. Duff, Laurence J. Reynolds, Arlie G. Turner, Jr.
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Patent number: 6264824Abstract: A method and apparatus for the indentification of corrosion in a metal object is disclosed. The method comprises analyzing the statistical distribution of signals generated between two electrodes, typically exposed to the same corrosion conditions as the metal object, and preferably analyzes the skewness and kurtosis of the signals. Neural nets are preferably used in the analysis.Type: GrantFiled: November 30, 1998Date of Patent: July 24, 2001Assignee: Integriti Investments Ltd.Inventors: Stephen Anthony Reid, David Anthony Eden
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Patent number: 6258253Abstract: The present invention provides a vapor corrosion cell for a real-time and quantitative measurement of corrosion of conductive materials in atmospheres containing chemically reactive gases and water vapor. Two prototypes are provided. Also provided are various applications of this apparatus in industry.Type: GrantFiled: April 15, 1999Date of Patent: July 10, 2001Assignee: The United States of America as represented by the Administrator of the National Aeronautics and Space AdministrationInventor: Dennis D. Davis
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Patent number: 6258252Abstract: An object to be analyzed for corrosion and corrosion prevention is divided into a plurality of adjacent regions of plural types by a dividing plane, with one of the adjacent regions being referred to as an attentional region with a boundary as the dividing plane and the other as a non-attentional region with a boundary as the dividing plane. An initial current density or an initial potential is imparted to each element of the boundary of the non-attentional region to effect a boundary element analysis for determining a relationship between a potential and a current density in each the element. A potential distribution and a current density distribution in the attentional region in its entirety are determined, using the relationship between the potential and the current density in each the element of the boundary of the non-attentional region as a boundary condition for the attentional region.Type: GrantFiled: July 15, 1998Date of Patent: July 10, 2001Assignee: Ebara CorporationInventors: Matsuho Miyasaka, Hirokazu Takayama, Kenji Amaya, Shigeru Aoki
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Patent number: 6181760Abstract: The invention relates to a sensor for a measuring an electrochemical corrosion potential comprising a sensor tip, a conductor electrically connected to the sensor tip, an insulating member which surrounds the conductor, a connecting member which surrounds the conductor; and a sleeve which fits over the sensor tip, the insulating member, and the connecting member, the sleeve having inner threads which engage with corresponding outer threads on at least one of the sensor tip and the connecting member.Type: GrantFiled: July 20, 1999Date of Patent: January 30, 2001Assignee: General Electric CompanyInventor: Young JinKim