公开(公告)号：US07959864B2

公开(公告)日：2011-06-14

申请号：US11925219

申请日：2007-10-26

申请人： Li Jiang ,  Oliver C. Mullins ,  Gale H. Gustavson ,  Christopher Harrison ,  Bhavani Raghuraman ,  Ronald E. G. Van Hal ,  Jimmy Lawrence ,  Kosta Ladavac ,  A. Ballard Andrews ,  Timothy Gareth John Jones ,  Rogerio Tadeu Ramos

发明人： Li Jiang ,  Oliver C. Mullins ,  Gale H. Gustavson ,  Christopher Harrison ,  Bhavani Raghuraman ,  Ronald E. G. Van Hal ,  Jimmy Lawrence ,  Kosta Ladavac ,  A. Ballard Andrews ,  Timothy Gareth John Jones ,  Rogerio Tadeu Ramos

IPC分类号： G01N33/24

CPC分类号： G01N31/224 ,  C09K8/52 ,  C09K2208/20 ,  E21B49/08 ,  G01N21/77 ,  G01N21/78 ,  G01N2021/7763 ,  G01N2021/7773 ,  G01N2021/7786

摘要： Methods and related apparatuses and mixtures are described for detecting hydrogen sulfide in a formation fluid downhole. A detection mixture is combined with the formation fluid downhole. The detection mixture includes metal ions for reacting with hydrogen sulfide forming a metal sulfide, and charged nanoparticles sized so as to inhibit significant aggregation of the metal sulfide so as to enable spectroscopic detection of the metal sulfide downhole. The combined mixture and formation fluid is then spectroscopically interrogated so as to detect the presence of the metal sulfide thereby indicating the presence of hydrogen sulfide in the formation fluid. The mixture also includes chelating ligands for sustaining thermal endurance of the mixture under downhole conditions.

公开(公告)号：US07799278B2

公开(公告)日：2010-09-21

申请号：US10885471

申请日：2004-07-06

申请人： Philippe Salamitou ,  Joyce Wong ,  Bhavani Raghuraman ,  Jagdish Shah ,  Ronald E. G. Van Hal ,  Robert J. Schroeder ,  Patrick Jean René Tabeling

发明人： Philippe Salamitou ,  Joyce Wong ,  Bhavani Raghuraman ,  Jagdish Shah ,  Ronald E. G. Van Hal ,  Robert J. Schroeder ,  Patrick Jean René Tabeling

IPC分类号： G01N21/00

CPC分类号： B01L3/502715 ,  B01L3/502707 ,  B01L3/50273

摘要： A microfluidic system for performing fluid analysis is described having: (a) a submersible housing having a fluid analysis means and a power supply to provide power to said system; and (b) a substrate for receiving a fluid sample, having embedded therein a fluid sample inlet, a reagent inlet, a fluid sample outlet, and a mixing region in fluid communication with the fluid sample inlet, the reagent inlet, and the fluid sample outlet, and wherein the substrate includes a fluid drive means for moving the fluid sample through the substrate, and wherein the substrate interconnects with the housing. At least a portion of the fluid analysis means may be embedded in the substrate.

摘要翻译： 描述了一种用于执行流体分析的微流体系统，其具有：（a）具有流体分析装置的潜水壳体和向所述系统提供动力的电源; （b）用于接收流体样品的基板，其中嵌入有流体样品入口，试剂入口，流体样品出口和与流体样品入口，试剂入口和流体样品流体连通的混合区域 出口，并且其中所述基板包括用于使所述流体样品通过所述基板移动的流体驱动装置，并且其中所述基板与所述壳体相互连接。 流体分析装置的至少一部分可以嵌入衬底中。

公开(公告)号：US20130075093A1

公开(公告)日：2013-03-28

申请号：US13247411

申请日：2011-09-28

申请人： Ronald E. G. van Hal ,  Jimmy Lawrence ,  Jane T. Lam

发明人： Ronald E. G. van Hal ,  Jimmy Lawrence ,  Jane T. Lam

IPC分类号： E21B49/08 ,  E21B27/00

CPC分类号： E21B49/081

摘要： Described herein are variable-volume reservoir (e.g., syringe pump) based processes and systems usable to characterize samples of reservoir fluids, without having to first transport the fluids to the surface. Variable-volume reservoirs are used, for example, for one or more of storing reactants, controlling mixing ratios and storing used chemicals. The processes and systems can be used in various modes, such as continuous mixing mode, flow injection analysis, and titrations. A fluid interrogator, such as a spectrometer, can be used to detect a change in a physical property of the mixture, which is indicative of an analyte within the mixture. In at least some embodiments, a concentration of the analyte solution can be determined from the detected physical property.

摘要翻译： 本文描述的是可变容积的储存器（例如，注射泵），可用于表征储层流体的样品，而不必首先将流体输送到表面。 使用可变体积的储存器，例如用于存储反应物的一种或多种，​​控制混合比例并储存使用的化学品。 该方法和系统可以以各种模式使用，例如连续混合模式，流动注射分析和滴定。 液体询问器（例如光谱仪）可以用于检测混合物的物理性质的变化，其指示混合物内的分析物。 在至少一些实施方案中，分析物溶液的浓度可以根据检测到的物理性质来确定。

公开(公告)号：US07695629B2

公开(公告)日：2010-04-13

申请号：US12390158

申请日：2009-02-20

申请人： Philippe Salamitou ,  Joyce Wong ,  Bhavani Raghuraman ,  Jagdish Shah ,  Ronald E. G. Van Hal ,  Robert J. Schroeder ,  Patrick Jean René Tabeling

发明人： Philippe Salamitou ,  Joyce Wong ,  Bhavani Raghuraman ,  Jagdish Shah ,  Ronald E. G. Van Hal ,  Robert J. Schroeder ,  Patrick Jean René Tabeling

IPC分类号： B01D61/00 ,  B01D63/00

CPC分类号： B01D67/0062 ,  B01D17/085 ,  B01D19/0031 ,  B01D61/18 ,  B01L3/502753 ,  B01L2200/0673 ,  B01L2300/0681 ,  B01L2300/0864 ,  B01L2300/161 ,  B01L2400/0487 ,  E21B43/38 ,  E21B47/10 ,  E21B49/081 ,  E21B49/10 ,  G01N1/4005 ,  G01N33/28 ,  G01N2001/4016 ,  Y10T436/25375

摘要： The present invention provides methods and apparatus for separating and/or analyzing fluids of interest. According to principles of the present invention, fluid analysis is accomplished with microfluidic devices and may be reported in real-time or near real-time in a subterranean environment. In addition or alternative to oilfield applications, the principles of the present invention contemplate separation in a laboratory or other environment for biological sample separation and analytical chemistry applications. The present invention is capable of separating liquid-liquid mixtures or emulsions in a microfluidic device without fouling.

摘要翻译： 本发明提供了用于分离和/或分析感兴趣的流体的方法和装置。 根据本发明的原理，使用微流体装置实现流体分析，并且可以在地下环境中实时或接近实时地报告。 除了油田应用之外或替代，本发明的原理考虑了在实验室或其他环境中的分离用于生物样品分离和分析化学应用。 本发明能够分离微流体装置中的液体 - 液体混合物或乳液而不会结垢。

公开(公告)号：US20090183871A1

公开(公告)日：2009-07-23

申请号：US12390158

申请日：2009-02-20

申请人： Philippe Salamitou ,  Joyce Wong ,  Bhavani Raghuraman ,  Jagdish Shah ,  Ronald E. G. Van Hal ,  Robert J. Schroeder ,  Patrick Jean Rene Tabeling

发明人： Philippe Salamitou ,  Joyce Wong ,  Bhavani Raghuraman ,  Jagdish Shah ,  Ronald E. G. Van Hal ,  Robert J. Schroeder ,  Patrick Jean Rene Tabeling

IPC分类号： B01D61/00 ,  B01D19/00 ,  B01D61/32 ,  E21B47/00

CPC分类号： B01D67/0062 ,  B01D17/085 ,  B01D19/0031 ,  B01D61/18 ,  B01L3/502753 ,  B01L2200/0673 ,  B01L2300/0681 ,  B01L2300/0864 ,  B01L2300/161 ,  B01L2400/0487 ,  E21B43/38 ,  E21B47/10 ,  E21B49/081 ,  E21B49/10 ,  G01N1/4005 ,  G01N33/28 ,  G01N2001/4016 ,  Y10T436/25375

摘要： The present invention provides methods and apparatus for separating and/or analyzing fluids of interest. According to principles of the present invention, fluid analysis is accomplished with microfluidic devices and may be reported in real-time or near real-time in a subterranean environment. In addition or alternative to oilfield applications, the principles of the present invention contemplate separation in a laboratory or other environment for biological sample separation and analytical chemistry applications. The present invention is capable of separating liquid-liquid mixtures or emulsions in a microfluidic device without fouling.

摘要翻译： 本发明提供了用于分离和/或分析感兴趣的流体的方法和装置。 根据本发明的原理，使用微流体装置实现流体分析，并且可以在地下环境中实时或接近实时地报告。 除了油田应用之外或替代，本发明的原理考虑了在实验室或其他环境中的分离用于生物样品分离和分析化学应用。 本发明能够分离微流体装置中的液体 - 液体混合物或乳液而不会结垢。

公开(公告)号：US20080066904A1

公开(公告)日：2008-03-20

申请号：US11562908

申请日：2006-11-22

申请人： Ronald E. G. Van Hal ,  Anthony Goodwin ,  Oliver C. Mullins ,  Peter S. Hegeman ,  Bhavani Raghuraman ,  Soraya S. Betancourt ,  Cosan Ayan ,  Ricardo Vasques ,  Francois Xavier Dubost ,  Christopher Scott Del Campo

发明人： Ronald E. G. Van Hal ,  Anthony Goodwin ,  Oliver C. Mullins ,  Peter S. Hegeman ,  Bhavani Raghuraman ,  Soraya S. Betancourt ,  Cosan Ayan ,  Ricardo Vasques ,  Francois Xavier Dubost ,  Christopher Scott Del Campo

IPC分类号： E21B49/00 ,  E21B27/00 ,  E21B36/00

CPC分类号： E21B49/10 ,  E21B36/008

摘要： A formation fluid sampling tool is provided with reactants which are carried downhole and which are combined in order to generate heat energy which is applied to the formation adjacent the borehole. By applying heat energy to the formation, the formation fluids are heated, thereby increasing mobility, and fluid sampling is expedited.

摘要翻译： 地层流体采样工具提供有反应物，其被运送到井下并且被组合以产生施加到邻近钻孔的地层的热能。 通过向地层施加热能，加热地层流体，从而增加流动性，并加速流体取样。

公开(公告)号：US08518702B2

公开(公告)日：2013-08-27

申请号：US13009405

申请日：2011-01-19

申请人： Li Jiang ,  Oliver C. Mullins ,  Gale H. Gustavson ,  Christopher Harrison ,  Bhavani Raghuraman ,  Ronald E. G. Van Hal ,  Jimmy Lawrence ,  Kosta Ladavac ,  Albert Ballard Andrews ,  Timothy Gareth John Jones ,  Rogerio Tadeu Ramos

发明人： Li Jiang ,  Oliver C. Mullins ,  Gale H. Gustavson ,  Christopher Harrison ,  Bhavani Raghuraman ,  Ronald E. G. Van Hal ,  Jimmy Lawrence ,  Kosta Ladavac ,  Albert Ballard Andrews ,  Timothy Gareth John Jones ,  Rogerio Tadeu Ramos

IPC分类号： C09K11/08 ,  C01B17/42

CPC分类号： G01N31/224 ,  C09K8/52 ,  C09K2208/20 ,  E21B49/08 ,  G01N21/77 ,  G01N21/78 ,  G01N2021/7763 ,  G01N2021/7773 ,  G01N2021/7786

摘要： Methods and related apparatuses and mixtures are described for detecting hydrogen sulfide in a formation fluid downhole. A detection mixture is combined with the formation fluid downhole. The detection mixture includes metal ions for reacting with hydrogen sulfide forming a metal sulfide, and charged nanoparticles sized so as to inhibit significant aggregation of the metal sulfide so as to enable spectroscopic detection of the metal sulfide downhole. The combined mixture and formation fluid is then spectroscopically interrogated so as to detect the presence of the metal sulfide thereby indicating the presence of hydrogen sulfide in the formation fluid. The mixture also includes chelating ligands for sustaining thermal endurance of the mixture under downhole conditions.

摘要翻译： 描述了用于检测井下地层流体中的硫化氢的方法和相关装置和混合物。 检测混合物与井下的地层流体结合。 该检测混合物包括与形成金属硫化物的硫化氢反应的金属离子，以及带电的纳米粒子尺寸以抑制金属硫化物的显着聚集，从而能够对井下金属硫化物进行光谱检测。 然后用光谱询问合并的混合物和地层流体，以便检测金属硫化物的存在，从而指示地层流体中存在硫化氢。 混合物还包括螯合配体，用于在井下条件下维持混合物的耐热性。

公开(公告)号：US08383048B2

公开(公告)日：2013-02-26

申请号：US12840492

申请日：2010-07-21

申请人： Ronald E. G. van Hal ,  Hua Chen

发明人： Ronald E. G. van Hal ,  Hua Chen

IPC分类号： G01N30/96

CPC分类号： G01N27/06 ,  G01N27/12 ,  G01N33/0045 ,  G01N33/225

摘要： Methods and devices for detecting a concentration of one or more element in hydrocarbon and/or natural gas in a oil and gas field application. The device including a microstructure having a low thermal mass suspended within a channel, the microstructure includes a supporting layer and a insulating layer; a controllable thermal device in communication with the supporting layer of the microstructure, wherein the controllable thermal device is controllably heated to one or more release temperature of the one or more element; a sensing layer arranged on the insulating layer to absorb molecules of the one or more element from hydrocarbon and/or natural gas; a detecting and measuring resistance device in communication with the sensing layer for measuring the resistance changes caused by absorption of molecules of the one or more element onto the sensing layer at a first temperature and a second temperature, and storing the data on a processor.

摘要翻译： 用于检测油气田应用中烃和/或天然气中一种或多种元素浓度的方法和装置。 该装置包括具有悬浮在通道内的低热质量的微结构，微结构包括支撑层和绝缘层; 与所述微结构的支撑层连通的可控热装置，其中所述可控热装置被可控地加热到所述一个或多个元件的一个或多个释放温度; 感测层，其布置在所述绝缘层上以从烃和/或天然气中吸收所述一种或多种元素的分子; 与感测层通信的检测和测量电阻装置，用于测量在第一温度和第二温度下将一个或多个元件的分子吸收到感测层上所引起的电阻变化，并将该数据存储在处理器上。

公开(公告)号：US08058071B2

公开(公告)日：2011-11-15

申请号：US13009424

申请日：2011-01-19

申请人： Li Jiang ,  Oliver C. Mullins ,  Gale H. Gustavson ,  Christopher Harrison ,  Bhavani Raghuraman ,  Ronald E. G. Van Hal ,  Jimmy Lawrence ,  Kosta Ladavac ,  Albert Ballard Andrews ,  Timothy Gareth John Jones ,  Rogerio Tadeu Ramos

发明人： Li Jiang ,  Oliver C. Mullins ,  Gale H. Gustavson ,  Christopher Harrison ,  Bhavani Raghuraman ,  Ronald E. G. Van Hal ,  Jimmy Lawrence ,  Kosta Ladavac ,  Albert Ballard Andrews ,  Timothy Gareth John Jones ,  Rogerio Tadeu Ramos

IPC分类号： G01N33/24

CPC分类号： G01N31/224 ,  C09K8/52 ,  C09K2208/20 ,  E21B49/08 ,  G01N21/77 ,  G01N21/78 ,  G01N2021/7763 ,  G01N2021/7773 ,  G01N2021/7786

摘要： Methods and related apparatuses and mixtures are described for detecting hydrogen sulfide in a formation fluid downhole. A detection mixture is combined with the formation fluid downhole. The detection mixture includes metal ions for reacting with hydrogen sulfide forming a metal sulfide, and charged nanoparticles sized so as to inhibit significant aggregation of the metal sulfide so as to enable spectroscopic detection of the metal sulfide downhole. The combined mixture and formation fluid is then spectroscopically interrogated so as to detect the presence of the metal sulfide thereby indicating the presence of hydrogen sulfide in the formation fluid. The mixture also includes chelating ligands for sustaining thermal endurance of the mixture under downhole conditions.

摘要翻译： 描述了用于检测井下地层流体中的硫化氢的方法和相关装置和混合物。 检测混合物与井下的地层流体结合。 该检测混合物包括与形成金属硫化物的硫化氢反应的金属离子，以及带电的纳米粒子尺寸以抑制金属硫化物的显着聚集，从而能够对井下金属硫化物进行光谱检测。 然后用光谱询问合并的混合物和地层流体，以便检测金属硫化物的存在，从而指示地层流体中存在硫化氢。 混合物还包括螯合配体，用于在井下条件下维持混合物的耐热性。

公开(公告)号：US20110132609A1

公开(公告)日：2011-06-09

申请号：US12986415

申请日：2011-01-07

申请人： Ronald E. G. Van Hal ,  Anthony Goodwin ,  Oliver C. Mullins ,  Peter S. Hegeman ,  Bhavani Raghuraman ,  Soraya S. Betancourt ,  Cosan Ayan ,  Ricardo Vasques ,  Francois Xavier Dubost ,  Christopher Scott Del Campo

发明人： Ronald E. G. Van Hal ,  Anthony Goodwin ,  Oliver C. Mullins ,  Peter S. Hegeman ,  Bhavani Raghuraman ,  Soraya S. Betancourt ,  Cosan Ayan ,  Ricardo Vasques ,  Francois Xavier Dubost ,  Christopher Scott Del Campo

IPC分类号： E21B43/27

CPC分类号： E21B49/10 ,  E21B36/008

摘要： A formation fluid sampling tool is provided with reactants which are carried downhole and which are combined in order to generate heat energy which is applied to the formation adjacent the borehole. By applying heat energy to the formation, the formation fluids are heated, thereby increasing mobility, and fluid sampling is expedited.

摘要翻译： 地层流体采样工具提供有反应物，其被运送到井下并且被组合以产生施加到邻近钻孔的地层的热能。 通过向地层施加热能，加热地层流体，从而增加流动性，并加速流体取样。