With Source And Detector Patents (Class 250/269.1)
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Publication number: 20130277545Abstract: An apparatus and method are disclosed for examining optically a sample carried in a plurality of wells. A holder is adapted to receive and hold in place a sample carrier. A plurality of excitation means selectively introduce excitation towards a spatially limited portion of a sample carrier held in place by said holder. Detecting means receive and detect emission radiation coupled out from a light output window of a sample carrier held in place by said holder. Said detecting means is common to said excitation means and is configured to receive emission radiation from a plurality of different spatially limited portions of a sample carrier held in place by said holder.Type: ApplicationFiled: September 30, 2011Publication date: October 24, 2013Applicant: AQSENS OYInventors: Niklas Törnkvist, Pekka Hänninen
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Publication number: 20130266039Abstract: A system for monitoring a borehole in an earth formation includes: a borehole string configured to direct a fluid into the earth formation; at least one optical fiber sensor disposed on the borehole string at a fixed location relative to the borehole string, the optical fiber sensor including a plurality of measurement units configured to generate measurements of at least one of strain and deformation of the borehole string; at least one temperature sensor configured to measure a temperature at a plurality of locations along the length of the optical fiber sensor; and a processor configured to receive the measurements from the at least one optical fiber sensor, receive temperature measurements from the at least one temperature sensor, and identify a fluid leak in at least one of the borehole string and the formation based on a correlation of the optical fiber sensor measurements and the temperature measurements.Type: ApplicationFiled: May 31, 2013Publication date: October 10, 2013Applicant: BAKER HUGHES INCORPORATEDInventors: PHILIPPE LEGRAND, GRAEME YOUNG, THOMAS N. HENDRYX
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Publication number: 20130214145Abstract: Methods and related systems are described for gamma-ray detection. A gamma-ray detector is made depending on its properties and how those properties are affected by the data analysis. Desirable properties for a downhole detector include; high temperature operation, reliable/robust packaging, good resolution, high countrate capability, high density, high Z, low radioactive background, low neutron cross-section, high light output, single decay time, efficiency, linearity, size availability, etc. Since no single detector has the optimum of all these properties, a downhole tool design preferably picks the best combination of these in existing detectors, which will optimize the performance of the measurement in the required environment and live with the remaining non-optimum properties.Type: ApplicationFiled: March 28, 2013Publication date: August 22, 2013Applicant: Schlumberger Technology CorporationInventor: Schlumberger Technology Corporation
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Patent number: 8511379Abstract: A method and system for determining a property of a sample of fluid in a borehole. A fluid sample is collected in a downhole tool. While collecting, X-rays are transmitted proximate the fluid from an X-ray source in the tool and an X-ray flux that is a function of a property of the fluid is detected. The detected X-ray flux data is processed to determine the property of the fluid.Type: GrantFiled: November 13, 2008Date of Patent: August 20, 2013Assignee: Halliburton Energy Services, Inc.Inventors: Ronald L. Spross, Jerome Allen Truax, Paul F. Rodney, Daniel David Gleitman
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Publication number: 20130187035Abstract: A well-logging device may include a housing to be positioned within a larger borehole of a subterranean formation and thereby define a stand-off distance with respect to the larger borehole. The well-logging device may also include at least one radiation source carried by the housing to direct radiation into the subterranean formation, and radiation detectors carried by the housing in azimuthally spaced relation to detect radiation from the subterranean formation. The well-logging device may further include a controller to cooperate with the radiation detectors to determine at least one property of the subterranean formation corrected for the stand-off distance.Type: ApplicationFiled: December 27, 2012Publication date: July 25, 2013Applicant: SCHLUMBERGER TECHNOLOGY CORPORATIONInventor: SCHLUMBERGER TECHNOLOGY CORPORATION
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Patent number: 8492706Abstract: The subject matter described herein includes methods, systems, and computer program products for measuring the density of a material. According to one aspect, a material property gauge includes a nuclear density gauge for measuring the density of a material. A radiation source adapted to emit radiation into a material and a radiation detector operable to produce a signal representing the detected radiation. A first material property calculation function may calculate a value associated with the density of the material based upon the signal produced by the radiation detector. The material property gauge includes an electromagnetic moisture property gauge that determines a moisture property of the material. An electromagnetic field generator may generate an electromagnetic field where the electromagnetic field sweeps through one or more frequencies and penetrates into the material.Type: GrantFiled: October 4, 2012Date of Patent: July 23, 2013Assignee: Troxler Electronic Laboratories, Inc.Inventor: Robert E. Troxler
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Patent number: 8481920Abstract: In one aspect, the present disclosure provides an apparatus for determining formation density. One embodiment of the apparatus includes a bottomhole assembly having a drill bit attached to end thereof for drilling through a formation, a first sensor in the drill bit configured to provide first signals for determining a first density of the formation proximate to the drill, a second sensor distal from the first sensor configured to provide signals for determining density of a second density of the formation, and a processor configured to determine the formation density from the first density and the second density.Type: GrantFiled: July 19, 2011Date of Patent: July 9, 2013Assignee: Baker Hughes IncorporatedInventors: Feyzi Inanc, W. Allen Gilchrist, Eric Sullivan, Tu Tien Trinh, Yi Liu
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Publication number: 20130146757Abstract: Methods and apparatus for measuring a phase fraction of a flow stream are disclosed. An infrared phase fraction meter includes a light source for emitting into a flow stream infrared radiation that includes first and second wavelength bands. The first wavelength band substantially transmits through first and second phases of the flow stream and is substantially absorbed by a third phase. In contrast, the second wavelength band is substantially absorbed by the second phase relative to the first and third phases. One or more detectors simultaneously detect attenuation of the first and second wavelength bands upon the infrared radiation passing through at least a portion of the flow stream, and a phase fraction of the second phase is determined based on the attenuation. As an example, the first, second and third phases are gas, water and oil, respectively, produced from a well.Type: ApplicationFiled: February 7, 2013Publication date: June 13, 2013Applicant: WEATHERFORD/LAMB, INC.Inventor: WEATHERFORD/LAMB, INC.
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Patent number: 8461519Abstract: Methods and apparatus enable monitoring a hydrocarbon well for water within a flow stream of the well. A water detector includes a light source for emitting into a flow stream infrared light that includes a water absorbent wavelength band. A detector detects attenuation of the water absorbent wavelength band upon the infrared radiation passing through at least a portion of the flow stream. The water detector outputs a presence of water and/or a phase fraction or quantification of water as determined based on the attenuation. Detecting attenuation of a substantially transmissive wavelength band with respect to water simultaneously with detection of the attenuation of the water absorbent wavelength band can enable correction for non-wavelength dependent attenuation.Type: GrantFiled: August 24, 2012Date of Patent: June 11, 2013Assignee: Weatherford/Lamb, Inc.Inventors: John Lievois, Espen S. Johansen, Babajide Adejuyigbe
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Publication number: 20130119245Abstract: An apparatus, system and method are disclosed for estimating a property of a fluid downhole, the apparatus including but not limited to a carrier that is conveyable in a borehole; a test cell carried by the carrier for capturing a fluid downhole; a fluid channel immersed in the fluid downhole, the fluid channel having a first wall and a second wall, wherein the first wall faces the second wall; at least on charged particle source placed at location along the first wall of the fluid channel; and at least one charged particle detector placed at a location along the second wall of the fluid channel, wherein the at least one radioactive detector is in positioned to be in particle communication with the at least one of the charged particle source.Type: ApplicationFiled: November 10, 2011Publication date: May 16, 2013Applicant: Baker Hughes IncorporatedInventor: Rocco DiFoggio
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Patent number: 8436309Abstract: Methods and apparatus for measuring a phase fraction of a flow stream are disclosed. An infrared phase fraction meter includes a light source for emitting into a flow stream infrared radiation that includes first and second wavelength bands. The first wavelength band substantially transmits through first and second phases of the flow stream and is substantially absorbed by a third phase. In contrast, the second wavelength band is substantially absorbed by the second phase relative to the first and third phases. One or more detectors simultaneously detect attenuation of the first and second wavelength bands upon the infrared radiation passing through at least a portion of the flow stream, and a phase fraction of the second phase is determined based on the attenuation. As an example, the first, second and third phases are gas, water and oil, respectively, produced from a well.Type: GrantFiled: June 18, 2007Date of Patent: May 7, 2013Assignee: Weatherford/Lamb, Inc.Inventors: John Lievois, David Atkinson
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Patent number: 8436296Abstract: A downhole fluid analysis tool has a tool housing and a fluid analysis device. The tool housing is deployable downhole and has at least one flow passage for a fluid sample. The fluid analysis device is disposed in the tool housing relative to the flow passage. Inside the device, one or more sources generate a combined input electromagnetic signal across a spectrum of wavelengths, and a routing assembly routes generated signals into the reference and measurement signals. At least one wheel having a plurality of filters is rotated to selectively interpose one or more of the filters in the paths of the reference and measurement signals.Type: GrantFiled: November 6, 2009Date of Patent: May 7, 2013Assignee: Precision Energy Services, Inc.Inventors: Jess V. Ford, Sean M. Christian, Dennis Roessler, Bryan W. Kasperski, Margaret C. Waid
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Patent number: 8436295Abstract: The present invention provides a device for measuring a mean free path capable of measuring directly the mean free path of a charged particle, a vacuum gauge, and a method for measuring a mean free path. The device for measuring a mean free path according to one embodiment of the invention includes an ion source for generating an ion, a collector (24a) for detecting the number of first charged particles being charged particles having a first flight distance L1 that is a flight distance of zero or more from the ion source, and a collector (24b) for detecting the number of second charged particles having a second flight distance longer than the first flight distance. The control part of the device calculates the mean free path from a ratio between the numbers of the first and second charged particles.Type: GrantFiled: March 15, 2012Date of Patent: May 7, 2013Assignee: Canon Anelva CorporationInventors: Yoshiro Shiokawa, Megumi Nakamura, Qiang Peng
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Publication number: 20130087698Abstract: Systems and methods for high speed mud gas logging are described. A general workflow of mud gas logging uses tandem mass spectroscopy. The workflow involves first separating the volatile components of the hydrocarbons (typically C8 and below) from the drilling fluid using a fluid extractor (or degaser). Extracted gases are then diluted in air and transported to an analyzer, which measures the concentration of each of those gases in air. A tandem mass spectroscopy-based analyser is used that is able to quantify each of those hydrocarbon components, including resolving isomeric species, while tolerating the presence of the non-hydrocarbons. According to some embodiments, triple quadrapole mass spectroscopy is used.Type: ApplicationFiled: October 6, 2011Publication date: April 11, 2013Applicant: Schlumberger Technology CorporationInventors: Andrew E. Pomerantz, Jerome Breviere
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Patent number: 8410423Abstract: Nuclear gauges, their components and method for assembly and adjustment of the same are provided. The nuclear gauges are used in measuring the density and/or moisture of construction-related materials. The nuclear gauge can include a gauge housing having a vertical cavity therethrough and at least one radiation detector located within the housing. The nuclear gauge can include a vertically moveable source rod and a radiation source operatively positioned within a distal end of the source rod. The nuclear gauge can also include a radiation shield assembly.Type: GrantFiled: January 5, 2009Date of Patent: April 2, 2013Assignee: Troxler Electronic Laboratories, Inc.Inventors: James E. Bartlett, Raffaello Verna, James D. Pratt, Jr.
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Publication number: 20130056626Abstract: The present invention relates to a method for measuring the characteristics of a downhole fluid. The method for measuring the characteristics of a downhole fluid includes passing a downhole fluid sample through an analyzer, analyzing the downhole fluid sample by illuminating the downhole fluid sample with light from a light source and detecting light that interacts with the fluid sample. The method is applicable to detecting carbon dioxide and/or hydrogen sulfide directly in a downhole environment.Type: ApplicationFiled: May 21, 2010Publication date: March 7, 2013Applicant: HALLIBURTON ENERGY SERVICES, INC.Inventors: Jing Shen, Christopher M. Jones, Michael T. Pelletier, Robert Atkinson, Mark Proett
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Patent number: 8390471Abstract: A system, method and device may be used to monitor conditions in a borehole. Energy is transmitted to a pulse generator located proximate a position to be interrogated with a sensor. The pulse generator stores the energy, then releases it in a pulse of electromagnetic energy, providing the energy to resonant circuits that incorporate the sensors. The resonant circuits modulate the electromagnetic energy and transmit the modulated energy so that it may be received and processed in order to obtain the desired measurements.Type: GrantFiled: September 7, 2007Date of Patent: March 5, 2013Assignee: Chevron U.S.A., Inc.Inventors: Don M Coates, M. Clark Thompson, David W. Beck
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Publication number: 20130048847Abstract: Method and apparatus for evaluating an earth formation using a pulsed neutron source comprising of dual beams of oppositely directed hydrogen isotopic ions with timing and focal characteristics of each beam set to accomplish a beam-to-beam focusing interaction to a selected position that extends axially along a sealed tube. This makes it possible to generate pulsed neutrons from a plurality of positions.Type: ApplicationFiled: August 14, 2012Publication date: February 28, 2013Applicant: Baker Hughes IncorporatedInventors: W. Allen Gilchrist, Steven M. Bliven
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Publication number: 20130048848Abstract: Method and apparatus for evaluating an earth formation using at least one detector with a pulsed neutron source that includes a beam of deuterium ions that can be directed to a selected position on a target including tritium that extends axially along a sealed tube. This makes it possible to generate pulsed neutrons from a plurality of positions.Type: ApplicationFiled: August 14, 2012Publication date: February 28, 2013Applicant: Baker Hughes IncorporatedInventor: Steven M. Bliven
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Publication number: 20130043381Abstract: Fractures at a wellbore wall and in a region surrounding a wellbore wall can be detected by monitoring gamma rays scattered from the fractures. Gamma rays are strategically directed from a tool disposed within the wellbore and to the wall and/or the region. Some of the gamma rays scatter from the fractures and are detected with detectors set a designated axial distance from the gamma ray source. In addition to identifying the presence of the fractures, the location and size of the fractures is also estimated. Based on the location and disposition of the fractures, perforations are formed in the formation to provide communication between the fractures and the wellbore.Type: ApplicationFiled: October 4, 2012Publication date: February 21, 2013Applicant: GE OIL & GAS LOGGING SERVICES, INC.Inventor: GE OIL & GAS LOGGING SERVICES, INC.
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Publication number: 20130009049Abstract: Substances on or adjacent a tubular disposed in a subterranean wellbore can be detected and/or their presence identified by monitoring gamma rays scattered from the substances. The substances include deposits on a sidewall of the tubular and liquid contained in the tubular. Examples of the deposits include asphaltenes, paraffins, scale, sand, and the like. Gamma rays are strategically directed from a tool disposed within the tubular and to adjacent a sidewall of the tubular. Some of the gamma rays scatter from the substances adjacent the tubular and are detected with detectors set a designated axial distance from the gamma ray source.Type: ApplicationFiled: July 25, 2012Publication date: January 10, 2013Applicant: GE OIL & GAS LOGGING SERVICES, INC.Inventors: John Edward Smaardyk, Donald Steinman, Russel Hertzog
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Patent number: 8347958Abstract: Acoustic monitoring is carried out using a fiber optic cable. Coherent Rayleigh noise generated by the transmission of a coherent beam of radiation through the fiber optic cable is detected, a phase of the coherent Rayleigh noise is measured and the measured phase is processed to identify an acoustic occurrence along the fiber optic cable. In certain aspects, an optical fiber serves as a distributed interferometer that may be used to monitor a conduit, wellbore or reservoir. The distributed interferometric monitoring provides for accurate detection of acoustic occurrences along the fiber optic cable and these acoustic occurrences may include fluid flow in a pipeline or wellbore, processes taking place in a wellbore or pipeline, fracturing, gravel packing, or production logging.Type: GrantFiled: June 20, 2012Date of Patent: January 8, 2013Assignee: Schlumberger Technology CorporationInventors: Arthur H. Hartog, J. Ernest Brown, John Cook, Jonathan James Elphick, Paul Simon Hammond, Ashley Bernard Johnson
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Publication number: 20120318968Abstract: The present disclosure relates to borehole logging methods and apparatuses for estimating at least one parameter of interest of an earth formation using nuclear radiation, particularly by detecting interactions between the earth formation and an activated radiation source. The method may include using nuclear radiation information from at least one nuclear radiation sensor to estimate a parameter of interest. The method may include separating a gross nuclear radiation count into separate nuclear radiation components. The method may also include activating a part of a downhole tool with neutron radiation. The apparatus may include at least one nuclear radiation sensor. The apparatuses may include an information processing device to perform the methods.Type: ApplicationFiled: June 13, 2012Publication date: December 20, 2012Applicant: Baker Hughes IncorporatedInventor: Feyzi Inanc
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Publication number: 20120318502Abstract: Methods and apparatus enable monitoring a hydrocarbon well for water within a flow stream of the well. A water detector includes a light source for emitting into a flow stream infrared light that includes a water absorbent wavelength band. A detector detects attenuation of the water absorbent wavelength band upon the infrared radiation passing through at least a portion of the flow stream. The water detector outputs a presence of water and/or a phase fraction or quantification of water as determined based on the attenuation. Detecting attenuation of a substantially transmissive wavelength band with respect to water simultaneously with detection of the attenuation of the water absorbent wavelength band can enable correction for non-wavelength dependent attenuation.Type: ApplicationFiled: August 24, 2012Publication date: December 20, 2012Inventors: John Lievois, Espen S. Johansen, Babajide Adejuyigbe
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Publication number: 20120312530Abstract: Disclosed is a system for measuring a chemical in a subsurface formation comprising housing component traversable within the well, a guide extending down the well from a fixed location being operatively connected to the housing, a radiation source, and an optical pathway between a sample and detector wherein the detector is located at the ground surface. Also disclosed is a method for reducing long distance transmission of radiation comprising placing a radiation source in a housing, placing a housing down in a well bore, lowering a spectrometer down the well bore, and controlling movement of a spectrometer by a guide wire controller at the ground surface. Further disclosed is a method of radiating a sample comprising, transmitting the radiation through at least one optical pathway, interacting a sample with the radiation, producing characteristic radiation from the sample, and transmitting by an optical pathway to a detector located in a spectrometer.Type: ApplicationFiled: July 10, 2012Publication date: December 13, 2012Inventors: John M. Pope, Quentin Peter William Morgan, Arthur R. Toews
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Publication number: 20120298851Abstract: In some embodiments, apparatus and systems, as well as methods, may operate to receive radiation at an active detector of a pair of radiation detectors to provide a first signal proportional to an intensity of the radiation, to receive none of the radiation at a blind detector of the pair of radiation detectors to provide a second signal proportional to the reception of no radiation, and to combine the first signal and the second signal to provide an output signal representing the difference between the first signal and the second signal. The pair of radiation detectors may comprise thermopile detectors. Combination may occur via differential amplification. Additional apparatus, systems, and methods are disclosed.Type: ApplicationFiled: February 3, 2011Publication date: November 29, 2012Applicant: Halliburton Energy Services, Inc.Inventors: Raj Pai, Maria Morys, Phap Hung Lien
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Publication number: 20120290208Abstract: A sensing apparatus (and corresponding method) for monitoring carbon dioxide dissolved in a liquid solution employs a crystal surrounded in part by a sample chamber such that, in use, the liquid solution is in direct contact with the crystal.Type: ApplicationFiled: May 10, 2011Publication date: November 15, 2012Applicant: Schlumberger Technology CorporationInventors: Li Jiang, Terizhandur S. Ramakrishnan, Timothy G.J. Jones, Roy Koveleski, Albert Perez, JR.
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Patent number: 8304714Abstract: A sensor for measuring a property of a chemical, the sensor including: a light source; and a mixing medium in optical communication with the light source and exposed to the chemical; wherein four wave mixing of light interacting with the mixing medium provides a signal that indicates the property.Type: GrantFiled: December 12, 2008Date of Patent: November 6, 2012Assignee: Baker Hughes IncorporatedInventor: Sebastian Csutak
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Patent number: 8299420Abstract: A downhole tool for performing measurement of a formation. The tool comprising a housing surrounding a source for generating neutrons and a detector for detecting the neutrons. A shield is located outside of, or embedded in, the housing and focuses the neutrons.Type: GrantFiled: April 13, 2010Date of Patent: October 30, 2012Assignee: Schlumberger Technology CorporationInventor: Christian Stoller
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Publication number: 20120267520Abstract: A well logging instrument includes a radiation generator and a high voltage power supply functionally coupled to the generator. The generator and the supply are longitudinally separated by a distance sufficient for emplacement of a radiation detector. At least a first radiation detector is disposed in a space between the generator and the supply. The instrument includes an electrical connection between the supply and the generator.Type: ApplicationFiled: August 6, 2008Publication date: October 25, 2012Inventor: Bradley Roscoe
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Patent number: 8274041Abstract: Methods and apparatus enable monitoring a hydrocarbon well for water within a flow stream of the well. A water detector includes a light source for emitting into a flow stream infrared light that includes a water absorbent wavelength band. A detector detects attenuation of the water absorbent wavelength band upon the infrared radiation passing through at least a portion of the flow stream. The water detector outputs a presence of water and/or a phase fraction or quantification of water as determined based on the attenuation. Detecting attenuation of a substantially transmissive wavelength band with respect to water simultaneously with detection of the attenuation of the water absorbent wavelength band can enable correction for non-wavelength dependent attenuation.Type: GrantFiled: September 30, 2011Date of Patent: September 25, 2012Assignee: Weatherford/Lamb, Inc.Inventors: John Lievois, Espen S. Johansen, Babajide Adejuyigbe
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Publication number: 20120223221Abstract: Apparatus, systems, and methods may operate to transmit energy to a nanofiber sampling coil and/or a nanofiber reference coil. Further activity may include receiving the energy as modified by evanescent interaction with a sampled material located proximate to the sampling coil and/or as modified by propagation through the reference coil, and comparing the energy modified by evanescent interaction with the energy modified by propagation through the reference coil to determine a spectroscopic property of the sampled material. Additional apparatus, systems, and methods, including the use of nanofibers and fluorescence induced by evanescent radiation to conduct spectroscopic analysis, are disclosed.Type: ApplicationFiled: August 21, 2009Publication date: September 6, 2012Applicant: Halliburton Energy Services, Inc.Inventor: Christopher M. Jones
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Publication number: 20120211650Abstract: Various methods and tools optically analyze downhole fluid properties in situ. Some disclosed downhole optical radiometry tools include a tool body having a sample cell for fluid flow. A light beam passes through the sample cell and a spectral operation unit (SOU) such as a prism, filter, interferometer, or multivariate optical element (MOE). The resulting light provides a signal indicative of one or more properties of the fluid. A sensor configuration using electrically balanced thermopiles offers a high sensitivity over a wide temperature range. Further sensitivity is achieved by modulating the light beam and/or by providing a reference light beam that does not interact with the fluid flow. To provide a wide spectral range, some embodiments include multiple filaments in the light source, each filament having a different emission spectrum. Moreover, some embodiments include a second light source, sample cell, SOU, and detector to provide increased range, flexibility, and reliability.Type: ApplicationFiled: November 18, 2010Publication date: August 23, 2012Applicant: Halliburton Energy Services ,Inc.Inventors: Christopher M. Jones, Stephen A. Zannoni, Michael T. Pelletier, Raj Pai, Wei Zhang, Marina L. Morys
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Patent number: 8225867Abstract: Acoustic monitoring is carried out using a fiber optic cable. Coherent Rayleigh noise generated by the transmission of a coherent beam of radiation through the fiber optic cable is detected, a phase of the coherent Rayleigh noise is measured and the measured phase is processed to identify an acoustic occurrence along the fiber optic cable. In certain aspects an optical fiber serves as a distributed interferometer that may be used to monitor a conduit, wellbore or reservoir. The distributed interferometric monitoring provides for accurate detection of acoustic occurrences along the fiber optic cable and these acoustic occurrences may include fluid flow in a pipeline or wellbore, processes taking place in a wellbore or pipeline, fracturing, gravel packing, or production logging.Type: GrantFiled: April 13, 2011Date of Patent: July 24, 2012Assignee: Schlumberger Technology CorporationInventors: Arthur H Hartog, J Ernest Brown, John Mervyn Cook, Jonathan Elphick, Paul S Hammond, Ashley Bernard Johnson
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Publication number: 20120181420Abstract: A method, system and apparatus for obtaining a parameter of interest from a plurality of sensors in a fiber optic cable deployed in a wellbore are disclosed. Light having variable frequency within a range of frequencies is propagated along the fiber optic cable. Signals are received that are responsive to interaction of the propagated light with the plurality of sensors. The received signals are filtered using a programmable filter. The parameter of interest is obtained from the filtered signals. In one aspect, the fiber optic cable is coupled to a member deployed in the wellbore and the parameter of interest is related to the member.Type: ApplicationFiled: January 19, 2011Publication date: July 19, 2012Applicant: BAKER HUGHES INCORPORATEDInventors: Roger Glen Duncan, Brooks A. Childers
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Publication number: 20120175512Abstract: Disclosed is an apparatus for estimating a parameter in a borehole penetrating the earth. The apparatus includes a large diameter waveguide (LDW) sensor configured to be disposed in the borehole and to sense the parameter at one or more locations along the LDW sensor, the LDW sensor having an outer dimension greater than or equal to 0.25 mm and random variations of an optical property. An optical interrogator is coupled to the LDW sensor and configured to illuminate the LDW sensor with incident light at a swept frequency and to receive light from the large diameter waveguide due to Rayleigh scattering of the incident light by the random variations of the optical property along a length of the LDW sensor. The received light provides information for estimating the parameter and a location along the LDW sensor where the parameter was sensed.Type: ApplicationFiled: January 6, 2011Publication date: July 12, 2012Applicant: BAKER HUGHES INCORPORATEDInventors: Roger G. Duncan, Brooks A. Childers
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Publication number: 20120175513Abstract: A method, system and apparatus for obtaining a parameter of interest relating to a wellbore is disclosed. A fiber optic cable having a plurality of sensors is disposed in the wellbore, wherein the plurality of sensors have reflectivity values configured to provide improved signal-to-noise ratio compared to signal-to-noise ratio of a plurality of sensors having substantially same reflectivity values. Light is propagated into the fiber optic cable from a light source and signals are received at a detector from the plurality of sensors in response to interaction of the propagated light with the plurality of sensors. A processor may be used to obtain the parameter of interest from the received signals. The fiber optic cable may be coupled to a member in the wellbore, wherein the parameter of interest is related to the member.Type: ApplicationFiled: January 11, 2011Publication date: July 12, 2012Applicant: BAKER HUGHES INCORPORATEDInventors: Roger Glen Duncan, Brooks A. Childers, Daniel S. Homa
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Publication number: 20120119076Abstract: The invention relates to methods and apparatus for determining a downhole parameter in an underbalanced drilling environment which include: selectively activating a first fluid flowing from the formation through a wellbore while under balanced drilled; detecting the activated first fluid, and determining a depth at which said fluid enters the wellbore.Type: ApplicationFiled: January 25, 2012Publication date: May 17, 2012Inventors: John Edwards, Christian Stoller, Peter Wraight, Roger Griffiths, Nicolas Renoux
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Publication number: 20120119077Abstract: Monitoring scattered gamma rays is used to identify substances disposed between coaxial tubulars disposed in a subterranean wellbore. Gamma rays are strategically directed from within an inner most tubular and into the annulus, some of the gamma rays scatter from the substance between the tubulars and are detected with detectors set a designated axial distance from the gamma ray source. Gamma rays also scatter from fluid within the tubular, a ratio of the gamma rays detected that scatter from the fluid in the tubular and from the substance can be used to determine the substance.Type: ApplicationFiled: December 21, 2011Publication date: May 17, 2012Applicant: GE OIL & GAS LOGGING SERVICES, INC.Inventors: John Edward Smaardyk, Donald Steinman, Russel Hertzog
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Patent number: 8173955Abstract: Methods and apparatus to optically determine velocities of downhole fluids are disclosed. Some example methods to determine a velocity of a downhole fluid include exciting a fluorescent substance in a downhole fluid with an optical signal via an optical interface. The example methods further include detecting fluorescence of the downhole fluid via an optical fiber at a predetermined distance from the optical interface, and determining the velocity of the downhole fluid based on the detected fluorescence.Type: GrantFiled: April 28, 2009Date of Patent: May 8, 2012Assignee: Schlumberger Technology CorporationInventor: Frederique Kalb
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Patent number: 8164050Abstract: A multi-channel source assembly for downhole spectroscopy has individual sources that generate optical signals across a spectral range of wavelengths. A combining assembly optically combines the generated signals into a combined signal and a routing assembly that splits the combined signal into a reference channel and a measurement channel. Control circuitry electrically coupled to the sources modulates each of the sources at unique or independent frequencies during operation.Type: GrantFiled: November 6, 2009Date of Patent: April 24, 2012Assignee: Precision Energy Services, Inc.Inventors: Jess V. Ford, Thomas Blankinship, Bryan W. Kasperski, Margaret C. Waid, Sean M. Christian
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Publication number: 20120091328Abstract: In some embodiments, apparatus, systems, and methods may operate to emit radiation into an earth formation from a source positioned below a surface of the earth, collect resulting radiation that is a result of the radiation emitted and interacting with the formation, and to determine the total carbon yield from the resulting radiation. Further activities may include determining the amount of inorganic carbon content from carbonate minerals in the formation based on a carbon-calcium ratio derived from the resulting radiation, as well as from iron-carbon based minerals in the formation based on a carbon-iron ratio derived from the resulting radiation. Additional apparatus, systems, and methods are disclosed.Type: ApplicationFiled: April 7, 2010Publication date: April 19, 2012Applicant: HALLIBURTON ENERGY SERVICES, INC.Inventor: Fnu Suparman
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Publication number: 20120091329Abstract: A method for estimating a property of an earth formation, the method includes: conveying a carrier through a borehole penetrating the earth formation; irradiating the formation with neutrons from a neutron source disposed at the carrier; detecting a first signal from the formation due to the irradiating using a first radiation detector, the first signal being related to a saturation of a fluid in the formation; detecting a second signal from an element in the formation due to the irradiating using a second radiation detector, the second signal being related to an element emitting the second signal in the formation; and estimating the property from the first signal and the second signal.Type: ApplicationFiled: February 24, 2011Publication date: April 19, 2012Applicant: BAKER HUGHES INCORPORATEDInventors: David M. Chace, Rafay Z. Ansari, Elton Frost, JR., Feyzi Inanc, W. Allen Gilchrist, JR., Randy L. Evans
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Publication number: 20120080587Abstract: Methods and apparatus enable monitoring a hydrocarbon well for water within a flow stream of the well. A water detector includes a light source for emitting into a flow stream infrared light that includes a water absorbent wavelength band. A detector detects attenuation of the water absorbent wavelength band upon the infrared radiation passing through at least a portion of the flow stream. The water detector outputs a presence of water and/or a phase fraction or quantification of water as determined based on the attenuation. Detecting attenuation of a substantially transmissive wavelength band with respect to water simultaneously with detection of the attenuation of the water absorbent wavelength band can enable correction for non-wavelength dependent attenuation.Type: ApplicationFiled: September 30, 2011Publication date: April 5, 2012Inventors: JOHN LIEVOIS, Espen S. Johansen, Babajide Adejuyigbe
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Patent number: 8146655Abstract: A method (and corresponding apparatus) for downhole fluid analysis of petroleum formation fluids. The method includes capturing in a chamber of a downhole tool at least two immiscible formation fluids in a generally segregated state (the fluids including petroleum), activating a fluid mixing means to mix the fluids in the chamber to create an emulsion therefrom, and allowing the emulsified fluids to segregate while measuring light transmittance through the segregating fluids in order to calculate a transition time period based on the light transmittance through the fluids in the chamber. The transition time period is preferably bounded by the time required for the light transmittance values measured by the light detector to reach a baseline light transmittance. The transition time period characterizes the stability of an emulsion formed by the captured fluids. The methods and apparatus can also be used for other fluid testing applications beyond downhole formation fluid testing.Type: GrantFiled: October 13, 2009Date of Patent: April 3, 2012Assignee: Schlumberger Technology CorporationInventors: Kentaro Indo, Kai Hsu
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Patent number: 8143570Abstract: The invention relates to methods and apparatus for determining a downhole parameter in an underbalanced drilling environment which include: selectively activating a first fluid flowing from the formation through a wellbore while under balanced drilled; detecting the activated first fluid, and determining a depth at which said fluid enters the wellbore.Type: GrantFiled: August 28, 2008Date of Patent: March 27, 2012Assignee: Schlumberger Technology CorporationInventors: John Edwards, Christian Stoller, Peter Wraight, Roger Griffiths, Nicolas Renoux
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Patent number: 8141633Abstract: In one general implementation, a method for identifying fluids in a wellbore includes generating light in a visible spectrum from a light source in a production wellbore; generating light in an ultraviolet spectrum from the light source in the production wellbore; receiving a first fluid in the production wellbore from a subterranean zone; receiving a second fluid in the production wellbore from the subterranean zone; capturing at least one image of a combined flow of the first fluid and the second fluid in at least one of the visible spectrum and the ultraviolet spectrum with an optical receiver in the production wellbore; and distinguishing, at least in part through the image, the first fluid from the second fluid in either or both the visible and ultraviolet spectrums.Type: GrantFiled: March 25, 2009Date of Patent: March 27, 2012Assignee: Occidental Chemical CorporationInventors: David W. Hampton, Robert C. Kramm
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Publication number: 20120068060Abstract: A method for estimating a parameter of interest of an earth formation having a fluid contained in pores of the earth formation, the method includes: conveying a carrier through a borehole penetrating the earth formation; irradiating the earth formation with neutrons from a neutron source disposed at the carrier; measuring radiation emitted from the earth formation resulting from the irradiating using at least one detector; calculating or determining a mathematical parameter from radiation measured by the at least one detector; predicting values of the mathematical parameter over a range of values of an earth formation property; and comparing the mathematical parameter to the predicted values to estimate the parameter of interest.Type: ApplicationFiled: March 24, 2011Publication date: March 22, 2012Applicant: BAKER HUGHES INCORPORATEDInventors: David M. Chace, Rafay Z. Ansari, Feyzi Inanc, W. Allen Gilchrist, JR., Elton Frost, JR.
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Patent number: 8138471Abstract: An apparatus for inspection in situ of a wellbore casing and a pipeline from inside the wellbore or pipeline. The apparatus includes a penetrating radiation source such as x-rays, a rotatable beam collimator adapted to collimate the penetrating radiation source and produce at least one pencil radiation beam rotatable about the radiation source, an arcuate radiation detector suitable for detecting radiation scattered off a target, and a housing containing the radiation source, the rotatable beam collimator, and the radiation detector. The housing is provided with at least one exit point for exiting of the at least one pencil radiation beam from the housing.Type: GrantFiled: December 9, 2010Date of Patent: March 20, 2012Assignee: Gas Technology InstituteInventors: Daniel Shedlock, Andrew Hammerschmidt
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Publication number: 20120061559Abstract: A downhole measurement apparatus includes a tool body supporting a logging tool. The logging tool includes a detector outsert coupled into and exposed through an exterior pocket of the tool body to position the outer surface of the outsert adjacent or in close proximity to the outer diameter of the tool body. A stabilizer or off-center stabilizer may be provided to further deflect the outsert portion of the logging tool toward an earth formation to increase detector proximity to the formation. The axial distance between the detector and a nuclear source can be calibrated using configurations of the nuclear source holder and the outsert. Retention mechanisms for the source holder and the outsert further enhance proximity and calibration.Type: ApplicationFiled: May 20, 2010Publication date: March 15, 2012Applicant: HALLIBURTON ENERGY SERVICES, INC.Inventors: Ricardo Ortiz, Michael Dewayne Finke, Kristopher V. Sherrill