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11.发明专利
公开(公告)号:AU2012294865B2
公开(公告)日:2015-09-17
申请号:AU2012294865
申请日:2012-07-16
Applicant: HALLIBURTON ENERGY SERVICES INC
Inventor: FREESE ROBERT P , JONES CHRISTOPHER M , PELLETIER MICHAEL T , DAUSSIN RORY D , HAYWORTH ROBERT D
Abstract: In or near real-time monitoring of fluids can take place using an opticoana!ytical device that is configured for monitoring the fluid. Fluids can be monitored prior to or during their introduction into a subterranean formation using the opticoanalytical devices. Produced fluids from a subterranean formation can be monitored in a like manner. The methods can comprise providing at least one acid; combining the at least one acid with a base fluid to form an acidizing fluid; and monitoring a characteristic of the acidizing fluid using a first opticoanalytical device that is in optical communication with a flow pathway for transporting the acidizing fluid.
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公开(公告)号:AU2012294881B2
公开(公告)日:2014-09-25
申请号:AU2012294881
申请日:2012-07-18
Applicant: HALLIBURTON ENERGY SERVICES INC
Inventor: FREESE ROBERT P , JONES CHRISTOPHER M , PELLETIER MICHAEL T , DAUSSIN RORY D , LOVELESS DAVID M , HAGGSTROM JOHANNA
Abstract: &idigr;&eegr; or near real-time monitoring of fluids can take place using an opticoanalytical device that is configured for monitoring the fluid. Fluids can be monitored prior to or during their introduction into a subterranean formation using the opticoanalytical devices. Produced fluids from a subterranean formation can be monitored in a like manner. The methods can comprise providing a fracturing fluid comprising a base fluid and at least one fracturing fluid component; introducing the fracturing fluid into a subterranean formation at a pressure sufficient to create or enhance at least one fracture therein, thereby performing a fracturing operation in the subterranean formation; and monitoring a characteristic of the fracturing fluid or a formation fluid using at least a first opticoanalytical device within the subterranean formation, during a flow back of the fracturing fluid produced from the subterranean formation, or both.
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公开(公告)号:AU2012294856A1
公开(公告)日:2014-02-27
申请号:AU2012294856
申请日:2012-07-13
Applicant: HALLIBURTON ENERGY SERVICES INC
Inventor: FREESE ROBERT P , YEAGER VALERIE J , HILLIS CORY D , JONES CHRISTOPHER M
IPC: C02F1/00
Abstract: In or near real-time monitoring of fluids can take place using an opticoanalytical device that is configured for monitoring the fluid. Fluids can be monitored prior to or during their introduction into a subterranean formation using the opticoanalytical devices. Produced fluids from a subterranean formation can be monitored in a like manner. Specifically, bacteria can be monitored in fluids using opticoanalytical devices. The methods can comprise exposing water to a bactericidal treatment, and after exposing the water to the bactericidal treatment, monitoring live bacteria in the water using an opticoanalytical device that is in optical communication with the water. Optionally, the water can be introduced into a subterranean formation.
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公开(公告)号:AU2009356978B2
公开(公告)日:2013-08-01
申请号:AU2009356978
申请日:2009-12-23
Applicant: HALLIBURTON ENERGY SERVICES INC
Inventor: MORYS MARIAN L , ZANNONI STEVE A , JONES CHRISTOPHER M
IPC: G01N21/21
Abstract: Various systems and methods for performing optical analysis downhole with an interferogram (a light beam having frequency components with a time variation that identifies those frequency components. The interferogram is produced by introducing an interferometer into the light path, with the two arms of the interferometer having a propagation time difference that varies as a function of time. Before or after the interferometer, the light encounters a material to be analyzed, such as a fluid sample from the formation, a borehole fluid sample, a core sample, or a portion of the borehole wall. The spectral characteristics of the material are imprinted on the light beam and can be readily analyzed by processing electronics that perform a Fourier Transform to obtain the spectrum or that enable a comparison with one or more templates. An interferometer designed to perform well in the hostile environments downhole is expected to enable laboratory-quality measurements.
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15.发明专利
公开(公告)号:FR3060643B1
公开(公告)日:2019-11-29
申请号:FR1760918
申请日:2017-11-20
Applicant: HALLIBURTON ENERGY SERVICES INC
Inventor: JONES CHRISTOPHER M , GASCOOKE DARREN , VANZUILEKOM ANTHONY H , PELLETIER MICHAEL T , DAI BIN , PRICE JAMES M
Abstract: Des outils de fond de puits pour isoler et analyser un ou plusieurs gaz incluent un ensemble de séparation de gaz en communication fluidique avec un analyseur spécifique de gaz. L'ensemble de séparation de gaz inclut un piston disposé à l'intérieur d'un logement et un volume de séparation défini entre le piston et le logement. Le piston peut être déplacé pour séparer un composant gazeux et un composant liquide à partir d'un fluide de formation de fond de puits à l'intérieur du volume de séparation. L'analyseur spécifique de gaz sert à mesurer une ou plusieurs propriétés du composant gazeux. Dans certaines configurations, l'analyseur spécifique de gaz est un ensemble optique contenant une source de lumière, un détecteur optique, et une cellule de gaz qui contient un volume d'observation. L'ensemble optique sert à mesurer une ou plusieurs propriétés du composant gazeux à l'intérieur du volume d'observation via la source de lumière et le détecteur optique.
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Patent Agency Ranking
公开(公告)号:NO20190233A1
公开(公告)日:2019-02-14
申请号:NO20190233
申请日:2019-02-14
Applicant: HALLIBURTON ENERGY SERVICES INC
Inventor: JONES CHRISTOPHER M , GAO LI , PELLETIER MICHAEL T
Abstract: A method includes collecting tracer concentration measurements from a flow stream in a borehole as a function of time. The method also includes recovering an uplink telemetry signal from the collected tracer concentration measurements, wherein the uplink telemetry signal conveys a downhole tool measurement or communication. The method also includes performing an operation in response to the recovered uplink telemetry signal.
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公开(公告)号:FR3058456A1
公开(公告)日:2018-05-11
申请号:FR1759228
申请日:2017-10-03
Applicant: HALLIBURTON ENERGY SERVICES INC
Inventor: CHEN DINGDING , DAI BIN , JONES CHRISTOPHER M , QUIREIN JOHN A
IPC: E21B49/08
Abstract: L'invention concerne un système et des procédés pour une classification de fluides de fond de puits. Des mesures sont obtenues à partir d'un ou de plusieurs capteurs de fond de puits situés le long d'une section actuelle d'un puits de forage à l'intérieur d'une formation de subsurface. Les mesures obtenues à partir de l'un ou des plusieurs capteurs de fond de puits sont transformées en des données de composante de spectroscopie principale (PSC). Un ou plusieurs types de fluides sont identifiés pour la section actuelle du puits de forage à l'intérieur de la formation de subsurface, en se basant sur des données de PSC et un modèle de classification de fluides. Le modèle de classification de fluides est affiné pour une ou plusieurs sections subséquentes du puits de forage à l'intérieur de la formation de subsurface, sur la base au moins en partie de l'un ou des plusieurs types de fluides identifiés pour la section actuelle du puits de forage.
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公开(公告)号:CA2854443C
公开(公告)日:2016-10-18
申请号:CA2854443
申请日:2011-11-15
Applicant: HALLIBURTON ENERGY SERVICES INC
Inventor: BITTAR MICHAEL S , MENEZES CLIVE D , JONES CHRISTOPHER M
Abstract: Various embodiments include apparatus and methods to operate a tool downhole in a well, where the tool has an optical computation element to determine different properties of downhole structures. Such an optical computation element can be structured to provide optical analysis of fluid and material composition of the downhole environment associated with a drilling operation. The data measurements from the optical computation element can be used in a geosteering operation. Additional apparatus, systems, and methods are disclosed.
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公开(公告)号:CA2843518C
公开(公告)日:2016-10-18
申请号:CA2843518
申请日:2012-07-17
Applicant: HALLIBURTON ENERGY SERVICES INC
Inventor: FREESE ROBERT P , JONES CHRISTOPHER M , PELLETIER MICHAEL T , DAUSSIN RORY D , LOVELESS DAVID M , HAGGSTROM JOHANNA
Abstract: In or near real-time monitoring of fluids can take place using an opticoanalytical device that is configured for monitoring the fluid. Fluids can be monitored prior to or during their introduction into a subterranean formation using the opticoanalytical devices. Produced fluids from a subterranean formation can be monitored in a like manner. The methods can comprise providing a treatment fluid comprising a base fluid and at least one additional component; introducing the treatment fluid, into a subterranean formation; allowing the treatment fluid to perform a treatment operation in the subterranean formation; and monitoring a characteristic of the treatment fluid or a formation fluid using at least a first opticoanalytical device within the subterranean formation, during a flow back of the treatment fluid produced from the subterranean formation, or both.
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公开(公告)号:MY158367A
公开(公告)日:2016-09-30
申请号:MYPI2012000417
申请日:2009-08-14
Applicant: HALLIBURTON ENERGY SERVICES INC
Inventor: JONES CHRISTOPHER M , PELLETIER MICHAEL T
IPC: G06F19/00
Abstract: APPARATUS, SYSTEMS, AND METHODS MAY OPERATE TO DISCHARGE A PLURALITY OF SPIKE FLUIDS INTO A FLUID FLOWING IN A FLOW CHANNEL, TRANSMIT ENERGY TO THE FLUID USING AN ENERGY SOURCE COUPLED TO THE FLOW CHANNEL, RECEIVE THE ENERGY MODIFIED BY THE FLUID AS PHOTOMETRIC ENERGY, CONVERT THE PHOTOMETRIC ENERGY TO AT LEAST ONE PHOTOMETRIC SIGNAL, COMPARE THE AT LEAST ONE PHOTOMETRIC SIGNAL WITH A REFERENCE SIGNAL TO DETERMINE AT LEAST ONE PHOTOMETRIC PROPERTY OF THE FLUID, AND DETERMINE AT LEAST ONE COMPONENT OF THE FLUID USING THE AT LEAST ONE PHOTOMETRIC PROPERTY SUPPLIED TO A GENERALIZED STANDARD ADDITION METHOD (GSAM). ADDITIONAL APPARATUS, SYSTEMS, AND METHODS, INCLUDING THE USE OF MULTIVARIATE CURVE RESOLUTION (MCR) TO REFINE GSAM RESULTS. ARE DISCLOSED.
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