With Source And Detector Patents (Class 250/269.1)
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Publication number: 20120056083Abstract: The present disclosure relates to borehole logging methods and apparatuses for estimating formation properties using nuclear radiation, particularly an apparatus and method for estimating amounts of silicon and/or oxygen in the formation using exposure time information. The method may include using nuclear radiation information from at least one nuclear radiation detector to estimate at least one parameter of interest. The method may also include reducing an error in the estimated formation properties due to speed variations of a nuclear radiation source that activates the silicon and oxygen in the formation. The apparatus may include at least one nuclear radiation detector. The apparatuses may include an information processing device to perform the methods.Type: ApplicationFiled: September 1, 2011Publication date: March 8, 2012Applicant: Baker Hughes IncorporatedInventors: Feyzi Inanc, Rafay Zahid Ansari, W. Allen Gilchrist, David M. Chace
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Publication number: 20120043459Abstract: The present disclosure relates to apparatus and methods for evaluating an earth formation though a drillstring during tripping of the drillstring, particularly locating an area of circulation loss in a wellbore. The apparatus may include a neutron source and at least one radiation detector, which may be disposed on a logging instrument, configured to be dropped or pumped into a drillstring at the end of drilling. The logging instrument may be configured to make measurements through a homogenous portion of the drillstring while the drillstring is being tripped. The apparatus may include a memory and processor for logging data for later retrieval. The method may include adding a radiation absorbing substance to drilling fluid in the wellbore; exposing the earth formation to neutron radiation; and making a plurality of measurement indicative of radiation measurements of sigma or distinct energy peaks along the wellbore.Type: ApplicationFiled: June 24, 2011Publication date: February 23, 2012Applicant: BAKER HUGHES INCORPORATEDInventors: Freeman L. Hill, John G. Evans
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Publication number: 20110307179Abstract: A method for a pulsed gamma-gamma density tool to simultaneously compensate for interactions due to the photoelectric effect and density variations caused by standoff enables a more precise determination of bulk formation density. This method includes the steps of providing a source of energetic particles and directing those energetic particles at a formation having a known photoelectric factor and electron density and capturing one or more photons either emitted or deflected from the formation either a first detector or a second detector. The first detector is spaced a first distance from the source, the second detector is spaced a second distance from the detector and a third distance separates the first detector from the second detector.Type: ApplicationFiled: December 21, 2007Publication date: December 15, 2011Applicant: SCHLUMBERGER TECHNOLOGY CORPORATIONInventors: Tong Zhou, Felix Chen, Charles R. Case, Darwin V. Ellis, Bradley Albert Roscoe
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Patent number: 8076634Abstract: 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: May 5, 2009Date of Patent: December 13, 2011Assignee: Schlumberger Technology CorporationInventor: Christian Stoller
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Patent number: 8071937Abstract: 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. The nuclear density gauge includes 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 is configured to calculate a value associated with the density of the material based upon the signal produced by the radiation detector. The material property gauge further includes an electromagnetic moisture property gauge configured to determine a moisture property of the material. The electromagnetic moisture property gauge includes an electromagnetic field generator configured to generate an electromagnetic field where the electromagnetic field sweeps through one or more frequencies and penetrates into the material.Type: GrantFiled: April 18, 2011Date of Patent: December 6, 2011Assignee: Troxler Electronic Laboratories, Inc.Inventor: Robert Ernest Troxler
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Publication number: 20110284732Abstract: This invention relates to nondestructive control, more specifically, to the detection of cracks, flaws and other defects in oil and gas wells and cementing quality control.Type: ApplicationFiled: June 11, 2008Publication date: November 24, 2011Inventors: Roman Vladimirovich Korkin, Viacheslav Viktorovich
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Publication number: 20110278445Abstract: This device comprises a single radioactive source (44), capable of creating an incident beam (120), and a target (48) placed opposite the source (44). The target (48) is capable of creating the second beam (130) by interacting with a first part of the incident beam (120), a second part of the incident beam (120) passing through the target (48) to form the first beam (124).Type: ApplicationFiled: December 7, 2009Publication date: November 17, 2011Inventors: Damien Chazal, Pierre-Arnaud Foucher, Gérard Segeral
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Patent number: 8049164Abstract: Measurements made by a natural gamma ray tool are used to provide an elemental composition of an earth formation. Additional measurements made with a pulsed neutron tool with two or more gamma ray detectors are used to provide a mineralogical and/or elemental image of the formation. This may be used in reservoir navigation and in furthering the understanding of the geology of the prospect.Type: GrantFiled: November 4, 2008Date of Patent: November 1, 2011Assignee: Baker Hughes IncorporatedInventors: Andrew D. Kirkwood, Philip L. Kurkoski, Richard R. Pemper
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Patent number: 8039791Abstract: An example method for determining a partial density of a compound in a downhole fluid may comprise exposing the downhole fluid to an electromagnetic radiation, and measuring a spectrum of radiation absorption by the downhole fluid. An absorption peak of the compound may be identified in the measured spectrum. A first parameter indicative of radiation absorption by the downhole fluid may be determined in the identified absorption peak. Second and third parameters indicative of radiation absorptions by the downhole fluid may be determined essentially out of the identified absorption peak. A weighted combination of the second and third parameters may be computed, and the partial density of the compound may be determined from a difference between the weighted combination and the first parameter.Type: GrantFiled: May 7, 2009Date of Patent: October 18, 2011Assignee: Schlumberger Technology CorporationInventors: Chengli Dong, Oliver C. Mullins, Micheal O'Keefe
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Patent number: 8039793Abstract: 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: November 16, 2010Date of Patent: October 18, 2011Assignee: Weatherford/Lamb, Inc.Inventors: John Lievois, Espen S. Johansen, Babajide Adejuyigbe
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Patent number: 8039792Abstract: A gamma ray detector uses a scintillation detector having a response that matches a response characteristic of a photodiode. The detector may be used to measure natural gamma rays and/or gamma rays produced by interaction of neutrons from a neutron source with the earth formation.Type: GrantFiled: January 27, 2010Date of Patent: October 18, 2011Assignee: Baker Hughes IncorporatedInventors: Anton Nikitin, Alexandr A. Vinokurov, Rocco DiFoggio, Mikhail V. Korjik
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Patent number: 8032311Abstract: A method for characterizing a desired property of a fluid downhole is described. In some non-limiting examples, the method comprises receiving an input signal representing sound speed of a fluid downhole, processing the input signal using a correlation equation expressing the desired property in terms of at least sound speed to produce an output signal representing the desired property, and outputting the output signal. In some examples, the correlation equation is derived through a chemometric analysis of a training data set, the training data set comprises a plurality of input values and a plurality of output values derived from said input values, between the desired fluid property and the first measured property, and the output values are calculated from the input values using a series of correlation equations. In at least one example, the desired property is gas oil ratio. In another example, the desired property is gas brine ratio.Type: GrantFiled: May 22, 2008Date of Patent: October 4, 2011Assignee: Baker Hughes IncorporatedInventor: Rocco DiFoggio
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Publication number: 20110198489Abstract: The present disclosure relates to borehole logging methods and apparatuses for estimating formation properties using nuclear radiation, particularly an apparatus and method for estimating a formation lithology parameter. The method may include using gamma ray count or count rate information to estimate a formation lithology parameter that may be one of, but not limited to: Z2/A, bulk density, Z2*bulk density/A, linear attenuation coefficients, and porosity. The method may include using time-dependent ratios with a pulsed radiation source. The method may also include dividing gamma ray information by time and/or by energy window. The apparatus includes a processor and storage subsystem with a program that, when executed, implements the method.Type: ApplicationFiled: January 28, 2011Publication date: August 18, 2011Applicant: BAKER HUGHES INCORPORATEDInventor: Loren P. Roberts
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Publication number: 20110191027Abstract: A system and method for use in a downhole tool having a fluid density measurement device positioned therein are provided. In one example, the method includes deploying the downhole tool at a first station in a borehole. The downhole tool is moved from the first station to a second station in the borehole. A plurality of fluid density values of fluid within the borehole between the first and second stations are measured using the fluid density measurement device in the downhole tool. The plurality of fluid density values may represent a continuous log of fluid densities between the first and second stations.Type: ApplicationFiled: February 2, 2010Publication date: August 4, 2011Inventors: HAROLD PFUTZNER, Peter D. Wraight
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Publication number: 20110186723Abstract: An apparatus for estimating at least one property of an earth formation is disclosed. The apparatus includes: a carrier configured to be disposed in the formation; a neutron tube disposed at the carrier and located on an axis; a high voltage power source disposed in the carrier and electrically connected to the neutron tube, the high voltage power source located remotely from the neutron tube; and at least one detector disposed in the carrier and located proximate to the neutron tube.Type: ApplicationFiled: January 26, 2011Publication date: August 4, 2011Applicant: BAKER HUGHES INCORPORATEDInventors: Constantyn Chalitsios, Yi Liu, Steven Bliven
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Publication number: 20110180698Abstract: A neutron generator includes a sealed envelope providing a low pressure environment for a gas. One end of the envelope defines an ion source chamber. A target electrode is disposed at the other end of the envelope. An extracting electrode is spaced apart from the target electrode by an accelerating gap. The extracting electrode bounds the ion source chamber. A dispenser cathode electrode and grid electrode are disposed in the ion source chamber for inducing ionization in the ion source chamber. The dispenser cathode electrode, the grid electrode and the extracting electrode operate at a positive high voltage potential and the target electrode operates at or near ground potential. This configuration provides an electric field gradient that accelerates ions towards the target electrode to induce collisions of ions with target material, thereby causing fusion reactions that generate neutrons. High voltage power supply circuit means supplies a positive high voltage signal to the electrodes of the ion source.Type: ApplicationFiled: February 26, 2009Publication date: July 28, 2011Inventor: Kenneth E. Stephenson
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Patent number: 7969571Abstract: An apparatus for estimating a property of a fluid downhole, is provided an includes: an optical fiber that receives light emitted from a light source and including an unclad portion adapted for contacting the fluid; a photodetector for receiving optical signals from the portion; and a spectrometer for obtaining an evanescent spectrum of the fluid from the portion. A method and a system are included.Type: GrantFiled: January 15, 2009Date of Patent: June 28, 2011Assignee: Baker Hughes IncorporatedInventor: Rocco DiFoggio
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Patent number: 7960687Abstract: Systems, methods, and devices relating to a sourceless X-ray downhole tool are provided. By way of example, such a downhole tool may include an X-ray generator, an X-ray detector, and data processing circuitry. The X-ray generator may emit some X-rays out of the downhole tool and some X-rays internally through the downhole tool. The X-ray detector may detect some of the X-rays that return to the downhole tool, as well as some of the X-rays that pass internally through the downhole tool. The data processing circuitry may gain-stabilize the X-ray detector based at least in part on the X-rays that passed internally through the downhole tool and were detected by the X-ray detector.Type: GrantFiled: September 30, 2010Date of Patent: June 14, 2011Assignee: Schlumberger Technology CorporationInventors: Matthieu Simon, Kenneth Stephenson
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Patent number: 7948620Abstract: An analysis system, tool, and method for performing downhole fluid analysis, such as within a wellbore. The analysis system, tool, and method provide for a tool including a spectroscope for use in downhole fluid analysis which utilizes an adaptive optical element such as a Micro Mirror Array (MMA) and two distinct light channels and detectors to provide real-time scaling or normalization.Type: GrantFiled: May 26, 2010Date of Patent: May 24, 2011Assignee: Precision Energy Services, Inc.Inventors: Sean M. Christian, Jess V. Ford, Mike Ponstingl, Anthony Johnson, Sven Krugor, Margaret C. Waid, Bryan Kasperski, Enrique Prati
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Patent number: 7946341Abstract: Acoustic monitoring of a conduit, a wellbore or a reservoir associated with hydrocarbon production or transportation and/or carbon dioxide sequestration is carried out using a fibre optic cable extending along or appurtenant to it as a distributed interferometer. Coherent Raleigh noise generated by the transmission of the coherent beam of radiation through the fiber optic is detected and processed to identify an acoustic occurrence.Type: GrantFiled: November 2, 2007Date of Patent: May 24, 2011Assignee: 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: 20110114832Abstract: 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: November 16, 2010Publication date: May 19, 2011Inventors: John Lievois, Espen S. Johansen, Babajide Adejuyigbe
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Publication number: 20110108721Abstract: 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: ApplicationFiled: November 6, 2009Publication date: May 12, 2011Applicant: 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: 7928360Abstract: The subject matter described herein includes methods, systems, and computer program products for measuring the density of a sample construction material. According to one aspect, a nuclear density gauge is disclosed for measuring the density of a sample construction material. The material measurement gauge includes a radiation source positioned for emitting radiation into a sample construction material. A radiation detector is positioned apart from the radiation source and configured to detect radiation from the sample construction material and to produce a signal representing the detected radiation. A non-nuclear moisture property detector is configured to determine a moisture property of the sample construction material and to produce a signal representing the moisture property. A material property calculation function is configured to calculate a property value associated with the sample construction material based upon the signals representing the detected radiation and the moisture property.Type: GrantFiled: October 22, 2010Date of Patent: April 19, 2011Assignee: Troxler Electronic Laboratories, Inc.Inventor: Robert Ernest Troxler
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Patent number: 7902501Abstract: A method for operating an ion mobility spectrometer comprises supplying an analyte substance into a reaction chamber of an ion mobility spectrometer having a closed internal gas circuit and at least one membrane inlet having an inner membrane chamber, changing at least one of flow resistances and gas paths in the closed internal gas circuit, and controlling at least one of a quantity and a concentration of analyte-containing gas flowing from the inner membrane chamber to the reaction chamber.Type: GrantFiled: November 6, 2008Date of Patent: March 8, 2011Assignee: Bruker Daltonik GmbHInventor: Jürgen Landgraf
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Publication number: 20110035151Abstract: Methods and related systems are described for use for making subterranean nuclear measurements. The system can include a plurality of elongated scintillator members each generating optical signals in response to ionizing radiation. Optical detector units can be optically coupled to at least one end of each elongated scintillator member so as to detect optical signals from each elongated scintillator member. The system can be suitable for permanent or semi-permanent deployment downhole. For example, the system can operate for more than six months in a subterranean deployment measuring cosmic radiation. The system can be suited to monitor density changes in subterranean regions of interest, for example, density changes brought about by steam injection as part of a steam assisted gravity drainage operation.Type: ApplicationFiled: August 6, 2009Publication date: February 10, 2011Applicant: Schlumberger Technology CorporationInventor: Tancredi Botto
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Patent number: 7884320Abstract: A method for operating an ion mobility spectrometer that comprises a measuring tube, a substance collector and a membrane inlet, the measuring tube, the substance collector and the membrane inlet defining a closed internal gas circuit, comprising separating the closed internal gas circuit from an external sample gas flow through the membrane inlet, transferring circulating gas containing an analyte substance from the membrane inlet to the substance collector, the analyte substance accumulated in the substance collector, releasing the accumulated analyte substances, and transferring the released analyte substances to the measuring tube.Type: GrantFiled: November 6, 2008Date of Patent: February 8, 2011Assignee: Brucker Daltonik GmbHInventor: Jürgen Landgraf
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Patent number: 7852468Abstract: A downhole refractometer apparatus and method include a light source, an optical fiber that receives light emitted from the light source and a fluid cell that receives a downhole fluid. A metalloid interface member is disposed to provide an interface with the downhole fluid in the fluid cell, and a light detecting device detects a light reaction at the metalloid interface member, the downhole fluid property being estimable at least in part based on the light reaction.Type: GrantFiled: December 14, 2007Date of Patent: December 14, 2010Assignee: Baker Hughes IncorporatedInventor: Rocco DiFoggio
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Patent number: 7834312Abstract: 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: January 22, 2007Date of Patent: November 16, 2010Assignee: Weatherford/Lamb, Inc.Inventors: John Lievois, Espen S. Johansen, Babajide Adejuyigbe
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Publication number: 20100282959Abstract: An example method for determining a partial density of a compound in a downhole fluid may comprise exposing the downhole fluid to an electromagnetic radiation, and measuring a spectrum of radiation absorption by the downhole fluid. An absorption peak of the compound may be identified in the measured spectrum. A first parameter indicative of radiation absorption by the downhole fluid may be determined in the identified absorption peak. Second and third parameters indicative of radiation absorptions by the downhole fluid may be determined essentially out of the identified absorption peak. A weighted combination of the second and third parameters may be computed, and the partial density of the compound may be determined from a difference between the weighted combination and the first parameter.Type: ApplicationFiled: May 7, 2009Publication date: November 11, 2010Inventors: Chengli Dong, Oliver C. Mullins, Michael O'Keefe
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Publication number: 20100270464Abstract: 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: ApplicationFiled: April 28, 2009Publication date: October 28, 2010Applicant: SCHLUMBERGER TECHNOLOGY CORPORATIONInventor: FREDERIQUE KALB
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Publication number: 20100268074Abstract: The present invention provides strontium halide scintillators as well as related radiation detection devices, imaging systems, and methods.Type: ApplicationFiled: July 2, 2009Publication date: October 21, 2010Applicant: Radiation Monitoring Devices, Inc.Inventors: Edgar V. Van Loef, Kanai S. Shah, Jarek Glodo, Cody M. Wilson
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Patent number: 7807962Abstract: Apparatus and methods for determining one or more fluid parameters of interest by irradiating fluid with a source of nuclear electromagnetic radiation and subsequently measuring attenuation and absorption properties of the fluid from which parameters of interest are determined. Measurements are made with a formation tester tool comprising preferably two functionally configured flow lines. The source simultaneously irradiates fluid contained in opposing irradiation sections that can be integral sections of each of the two flow lines. A radiation detector is dedicated to each irradiation section and measures radiation attenuation and absorption properties fluid contained within each flow line section. Absolute and relative fluid parameters of interest are determined from the responses of the two radiation detectors.Type: GrantFiled: December 13, 2007Date of Patent: October 5, 2010Assignee: Precision Energy Services, Inc.Inventors: Margaret Cowsar Waid, Bryan William Kasperski, Richard C. Odom, Dennis Eugene Roessler
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Publication number: 20100228483Abstract: Elemental analysis of an earth formation is performed using measurements from a gamma ray logging tool. From the elemental analysis, an estimate of the mineralogy of the formation is made. A prediction of the capture cross-section of the formation is made using the mineralogical analysis. The difference between the predicted capture cross-section and a measured capture cross-section is an indication of gas in the formation.Type: ApplicationFiled: March 2, 2010Publication date: September 9, 2010Applicant: BAKER HUGHES INCORPORATEDInventor: Brian J. LeCompte
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Patent number: 7782460Abstract: Apparatus and method for downhole formation testing using a spectrometer includes a carrier conveyable into a well borehole that traverses a subterranean formation of interest, a plurality of semiconductor light sources disposed on the carrier, a fluid sample cell that receives light emitted from the plurality of semiconductor light sources, and at least one photodetector that detects light emitted from the plurality of semiconductor light sources and after the light interacts with a fluid in the fluid sample cell.Type: GrantFiled: August 13, 2007Date of Patent: August 24, 2010Assignee: Baker Hughes IncorporatedInventors: Rocco DiFoggio, Sebastian Csutak
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Publication number: 20100207019Abstract: A distributed vibration sensor is positioned in a wellbore to measure fluid flow. The output of the sensor is monitored to acquire a distribution of vibration along a region of interest in the wellbore. An indication of the effectiveness of a well treatment to stimulate fluid flow in the wellbore may be provided based on the acquired vibration distribution. In some embodiments, the well treatment may be adjusted based on the indication of effectiveness.Type: ApplicationFiled: February 15, 2010Publication date: August 19, 2010Applicant: SCHLUMBERGER TECHNOLOGY CORPORATIONInventors: Arthur H. Hartog, Colin A. Wilson
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Publication number: 20100187413Abstract: An apparatus for estimating a property of a subterranean material, the apparatus including: a photon induced emission device configured to be disposed in a borehole penetrating the subterranean material and to provide an output related to an induced emission interaction with a received photon that generates an electron that is used for providing the output; wherein the output is used for estimating the property.Type: ApplicationFiled: January 11, 2010Publication date: July 29, 2010Applicant: BAKER HUGHES INCORPORATEDInventors: Rocco DiFoggio, Anton Nikitin
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Patent number: 7763845Abstract: A photodiode whose long-wavelength cutoff is in the short-wavelength range (preferably, between ultraviolet and yellowish-green) having reduced temperature sensitivity is used in downhole applications. It may be matched with scintillation devices having an output matched to the response curve of the photodiode for use with nuclear logging devices. The photodiode may also be used in gyroscopes in which light from an LED matched to the photodiode is reflected from a spinning mass.Type: GrantFiled: August 14, 2006Date of Patent: July 27, 2010Assignee: Baker Hughes IncorporatedInventors: Robert A. Estes, Rocco DiFoggio, Eric B. Molz, Constantyn Chalitsios, Philip L. Kurkoski
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Publication number: 20100181472Abstract: A laser spectroscopy system can determine the identity and/or quantity of a component of a fluid at a remote location such as downhole in a wellbore or inside a pipeline, particularly at high temperature, e.g. from about 75 to 175° C., without additional or external cooling. The system includes a fiber laser doped with a rare earth element (e.g. Nd3+, Tm3+, Er3+, Th3+, Ho3+, Yb3+, Pr3+) and generates light in a wavelength between about 900 to about 3000 nm. The system may analyze a drilling mud such as an oil based mud or crude oil, and may detect components such as methane, ethane, carbon dioxide, hydrogen sulfide and the like.Type: ApplicationFiled: January 18, 2010Publication date: July 22, 2010Applicant: Baker Hughes IncorporatedInventor: Sebastian Csutak
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Patent number: 7750302Abstract: A method and apparatus for determining the concentration of organic acids in formation fluids is provided including pumps for pumping fluids from a subterranean formation into the body of a downhole tool and sources for illuminating the flow with infrared radiation to obtain the infrared absorption or a related parameter at one or more wavelengths, and processors for converting the measured absorption into the concentration of the organic acids, using for example a multi-value calibration matrix which relates IR absorption spectral values to concentration measurement under downhole conditions.Type: GrantFiled: September 9, 2008Date of Patent: July 6, 2010Assignee: Schlumberger Technology CorporationInventors: Abul K. M. Jamaluddin, Stephane Vannuffelen, Oliver C. Mullins
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Publication number: 20100163718Abstract: An apparatus for estimating a property of a fluid in an earth formation, the apparatus including: a logging instrument configured to be conveyed in a borehole penetrating the formation; and a plurality of light sources disposed at the logging instrument; wherein each of the light sources is configured to illuminate a sample of the fluid with a light beam causing the sample to fluoresce light with a characteristic related to the property, each of the light sources being configured to provide a light beam with a solid angle and a distance traveled to the sample, the solid angle and the distance being configured to concentrate the beam at an area of the sample that is overlapped substantially a same amount by a beam from another light source in the plurality.Type: ApplicationFiled: December 30, 2008Publication date: July 1, 2010Applicant: BAKER HUGHES INCORPORATEDInventors: Peter SCHAEFER, Stefan SROKA, Tobias KISCHKAT
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Publication number: 20100155589Abstract: In one aspect of the invention, a downhole tool string component comprises a tubular body with a first and a second tool joint adapted to connect to adjacent tool string components, and a central bore adapted to pass drilling mud between the joints. A sleeve circumferentially disposed about an outer surface of the tubular body. The sleeve is rigidly attached to the outer surface at first and second sleeve ends and forming at least three stabilizer blades. A nuclear source and at least one nuclear detector are disposed within a gap formed between the inner surface of the sleeve and the outer surface of the tubular body.Type: ApplicationFiled: December 19, 2008Publication date: June 24, 2010Inventors: David R. Hall, Paula Turner, Scott Woolston, Nathan Nelson
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Patent number: 7741605Abstract: A method of detecting gas conveyed in a drilling fluid (M) returning from a well (26), which method comprises the steps of: (a) extracting gas from said drilling fluid (M); (b) transmitting infra-red radiation through said gas; and (c) detecting with a detector (50) infra-red red radiation that has passed through said gas and providing an output signal representative thereof; characterised by the step of: (d) examining the intensity of a portion of the infra-red spectrum within a range of approximately 3.1 ?m and 3.6 ?m to estimate whether or not said gas comprises any light or heavy hydrocarbons.Type: GrantFiled: July 19, 2005Date of Patent: June 22, 2010Assignee: Varco I/P, Inc.Inventors: Scott Edwin Gunn, John Wesley Debliek
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Publication number: 20100148049Abstract: A method for estimating a chemical composition of a material in a borehole penetrating the earth, the method includes: placing an analysis unit into the borehole; placing a sample of the material onto an enhanced surface of the analysis unit, the enhanced surface having a feature configured to increase an electric susceptibility of the sample at an interface between the sample and the enhanced surface; illuminating the sample at the interface with a first light beam and a second light beam; measuring sum frequency light generated from the illuminating; and analyzing the sum frequency light to estimate the chemical composition of the material.Type: ApplicationFiled: December 7, 2009Publication date: June 17, 2010Applicant: BAKER HUGHES INCORPORATEDInventor: Sebastian Csutak
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Patent number: 7733490Abstract: Apparatus and methods to analyze downhole fluids are described herein. A disclosed example method involves obtaining a sample of a downhole fluid, and depressurizing at least a portion of the sample. Additionally, a disclosed example method involves ionizing at least the portion of the sample, and analyzing the ionized portion of the sample to determine a parameter of the downhole fluid.Type: GrantFiled: October 6, 2008Date of Patent: June 8, 2010Assignee: Schlumberger Technology CorporationInventors: Anthony Goodwin, Oliver C. Mullins
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Patent number: 7728971Abstract: An analysis system, tool, and method for performing downhole fluid analysis, such as within a wellbore. The analysis system, tool, and method provide for a tool including a spectroscope for use in downhole fluid analysis which utilizes an adaptive optical element such as a Micro Mirror Array (MMA) and two distinct light channels and detectors to provide real-time scaling or normalization.Type: GrantFiled: December 23, 2008Date of Patent: June 1, 2010Assignee: Precision Energy Services, Inc.Inventors: Sean M. Christian, Jess V. Ford, Mike Ponstingl, Anthony Johnson, Sven Kruger, Margaret C. Waid, Bryan Kasperski, Enrique Prati
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Patent number: 7705982Abstract: This relates to methods and apparatus for analyzing samples by fluorescence spectroscopy. In one embodiment, the methods and apparatus use a fluorescence detection unit (FDU) of a composition fluid analyzer (CFA™) module to detect variations in fluid properties (gradients) within an oil bearing column. Some embodiments enable efficient downhole fluid analysis in heavy oils where water/oil emulsions are present (water in dispersed phase and oil in the continuous phase). The principles described herein may also be applied when there are fine particles in the oil such as from unconsolidated sands.Type: GrantFiled: January 26, 2007Date of Patent: April 27, 2010Assignee: Schlumberger Technology CorporationInventors: Jesus Alberto Canas Triana, A. Ballard Andrews, Marc Schneider, Evie Freitas, Oliver C. Mullins, ChenGang Xian, Andrew Carnegie, Jamil Al-Naser
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Patent number: 7700910Abstract: A method of compensating a density log comprises the step of compensating the far density by adding a correction at a given point in the density log wherein: (a) the correction comprises at least a first correction function and optionally a second correction function; (b) when the correction includes both the first and second correction functions they respectively are corrections for “slow-moving” and “fast-moving” perturbations at the said given point; and (c) regardless of whether the correction includes the second correction function the first correction is filtered by a long filter.Type: GrantFiled: May 26, 2005Date of Patent: April 20, 2010Assignee: Reeves Wireline Technologies LimitedInventor: James Roger Samworth
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Patent number: 7687769Abstract: Some principles described herein contemplate implementation of downhole imaging for the characterization of formation fluid samples in situ, as well as during flow through production tubing, including subsea flow lines, for short term investigation, permanent, and/or long term installations. Various methods and apparatus described herein may facilitate downhole testing. For example, some embodiments facilitate multi-dimensional fluorescence spectrum measurement testing downhole and correlating the fluorescence with other oil properties.Type: GrantFiled: January 19, 2007Date of Patent: March 30, 2010Assignee: Schlumberger Technology CorporationInventors: Kentaro Indo, Albert Ballard Andrews, Stephane Vannuffelen, Tsutomu Yamate, Toru Terabayashi, Hideki Kinjo, Oliver C. Mullins
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Patent number: 7687770Abstract: Some principles described herein contemplate implementation of downhole imaging for the characterization of formation fluid samples in situ, as well as during flow through production tubing, including subsea flow lines, for short term investigation, permanent, and/or long term installations. Various methods and apparatus described herein may facilitate downhole testing. For example, some embodiments facilitate multi-dimensional fluorescence spectrum measurement testing downhole.Type: GrantFiled: January 19, 2007Date of Patent: March 30, 2010Assignee: Schlumberger Technology CorporationInventors: Kentaro Indo, Albert Ballard Andrews, Stephane Vannuffelen, Tsutomu Yamate, Toru Terabayashi, Hideki Kinjo, Oliver C. Mullins
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Publication number: 20100059669Abstract: A method and apparatus for determining the concentration of organic acids in formation fluids is provided including pumps for pumping fluids from a subterranean formation into the body of a downhole tool and sources for illuminating the flow with infrared radiation to obtain the infrared absorption or a related parameter at one or more wavelengths, and processors for converting the measured absorption into the concentration of the organic acids, using for example a multi-value calibration matrix which relates IR absorption spectral values to concentration measurement under downhole conditions.Type: ApplicationFiled: September 9, 2008Publication date: March 11, 2010Applicant: SCHLUMBERGER TECHNOLOGY CORPORATIONInventors: Abul K.M. Jamaluddin, Stephane Vannuffelen, Oliver C. Mullins