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    • 1. 发明申请
    • Method and apparatus for locating gas hydrate
    • 用于定位天然气水合物的方法和装置
    • US20070265782A1
    • 2007-11-15
    • US11432269
    • 2006-05-11
    • Robert KleinbergJakob Haldorsen
    • Robert KleinbergJakob Haldorsen
    • G06F19/00
    • G01V1/288E21B2043/0115G01V3/083G01V3/12G01V2210/647G01V2210/65
    • An exploration paradigm for detecting and/or characterizing gas hydrate deposits using either electromagnetic or seismic surveys, that accounts for the possibility that gas hydrate may accumulate in vertical or subvertical dikes. Geologic factors, such as the presence of the gas hydrate stability zone, indications that a prolific source of gas exists (or existed) below the gas hydrate stability zone and indications that a high flux of gas could be transported into the gas hydrate stability zone, may be considered as part of an exploration strategy. Data may be collected using seismic techniques, such as a walk-away vertical seismic profile techniques, or electromagnetic surveys that are adapted to detecting the presence of vertical or subvertical dikes. In one example, data processing and acquisition techniques may be adapted to detect hydrate dikes, and do not assume a horizontally isotropic earth model.
    • 用于使用电磁或地震勘测来检测和/或表征天然气水合物沉积物的探索范例,这说明了天然气水合物可能在垂直或颠簸堤坝中积聚的可能性。 地质因素,如天然气水合物稳定区的存在,表明天然气水合物稳定区以下气体存在(或存在)多产的气源,并表明可将高通量的气体输送到气体水合物稳定区, 可能被认为是勘探战略的一部分。 可以使用地震技术(例如步行垂直地震剖面技术)或适用于检测垂直或颠簸堤坝存在的电磁勘探来收集数据。 在一个示例中,数据处理和采集技术可以适于检测水合物堤坝,并且不假定水平各向同性的地球模型。
    • 3. 发明授权
    • Logging method for determining characteristic of fluid in a downhole measurement region
    • 用于确定井下测量区域中流体特性的测井方法
    • US07511487B2
    • 2009-03-31
    • US11679574
    • 2007-02-27
    • Robert BadryCharles FlaumRobert Kleinberg
    • Robert BadryCharles FlaumRobert Kleinberg
    • G01V3/00
    • G01V3/32G01N24/081G01R33/3808G01R33/50G01R33/5617
    • For use in logging downhole in an earth borehole, a method for determining a characteristic of oil, includes: providing and determining the viscosity of a plurality of crude oil samples; performing test measurements, using a predetermined operating mode, on media including the crude oil samples to obtain test data; applying a test processing procedure to the test data to obtain an output test parameter relating to the test data and the predetermined operating mode; deriving, for the plurality of crude oil samples, a correlation relating the output test parameter to the viscosities of the crude oil samples; performing downhole measurements in the measurement region with a logging device, operated with substantially the predetermined operating mode, to obtain logging data, and applying a measurement processing procedure to the logging data to obtain an output logging parameter; and determining the oil characteristic using the output logging parameter and the correlation.
    • 为了用于在地球钻孔中记录井下,确定油的特性的方法包括:提供并确定多个原油样品的粘度; 在包括原油样品的介质上进行使用预定操作模式的测试测量以获得测试数据; 对测试数据应用测试处理过程以获得与测试数据和预定操作模式相关的输出测试参数; 对于多个原油样品,得出与输出测试参数相关的原油样品的粘度; 使用基本上预定的操作模式操作的测井装置在测量区域中执行井下测量,以获得测井数据,以及对测井数据应用测量处理过程以获得输出测井参数; 并使用输出记录参数和相关性来确定油特性。
    • 5. 发明申请
    • LOGGING METHOD FOR DETERMINING CHARACTERISTIC OF FLUID IN A DOWNHOLE MEASUREMENT REGION
    • 用于确定井下测量区域中流体特性的记录方法
    • US20080204013A1
    • 2008-08-28
    • US11679574
    • 2007-02-27
    • Robert BadryCharles FlaumRobert Kleinberg
    • Robert BadryCharles FlaumRobert Kleinberg
    • G01V3/32
    • G01V3/32G01N24/081G01R33/3808G01R33/50G01R33/5617
    • For use in logging downhole in an earth borehole, a method for determining a characteristic of oil that may be present in a downhole measurement region, includes the following steps: providing a plurality of crude oil samples; determining the viscosities of the crude oil samples; performing test measurements, using a predetermined operating mode, on media including the crude oil samples to obtain test data; applying a test processing procedure to the test data to obtain an output test parameter relating to the test data and the predetermined operating mode; deriving, for the plurality of crude oil samples, a correlation relating the output test parameter to the viscosities of the crude oil samples; performing downhole measurements in the measurement region with a logging device, operated with substantially the predetermined operating mode, to obtain logging data, and applying a measurement processing procedure to the logging data to obtain an output logging parameter; and determining the oil characteristic using the output logging parameter and the correlation.
    • 为了用于在地球钻孔中记录井下,可以存在于井下测量区域中的用于确定油的特性的方法包括以下步骤:提供多个原油样品; 确定原油样品的粘度; 在包括原油样品的介质上进行使用预定操作模式的测试测量以获得测试数据; 对测试数据应用测试处理过程以获得与测试数据和预定操作模式相关的输出测试参数; 对于多个原油样品,得出与输出测试参数相关的原油样品的粘度; 使用基本上预定的操作模式操作的测井装置在测量区域中执行井下测量,以获得测井数据,以及对测井数据应用测量处理过程以获得输出测井参数; 并使用输出记录参数和相关性来确定油特性。
    • 7. 发明授权
    • Method and apparatus for locating gas hydrate
    • 用于定位天然气水合物的方法和装置
    • US09519072B2
    • 2016-12-13
    • US11432269
    • 2006-05-11
    • Robert KleinbergJakob B.U. Haldorsen
    • Robert KleinbergJakob B.U. Haldorsen
    • G01V1/00G01V1/28G01V3/08G01V3/12
    • G01V1/288E21B2043/0115G01V3/083G01V3/12G01V2210/647G01V2210/65
    • An exploration paradigm for detecting and/or characterizing gas hydrate deposits using either electromagnetic or seismic surveys, that accounts for the possibility that gas hydrate may accumulate in vertical or subvertical dikes. Geologic factors, such as the presence of the gas hydrate stability zone, indications that a prolific source of gas exists (or existed) below the gas hydrate stability zone and indications that a high flux of gas could be transported into the gas hydrate stability zone, may be considered as part of an exploration strategy. Data may be collected using seismic techniques, such as a walk-away vertical seismic profile techniques, or electromagnetic surveys that are adapted to detecting the presence of vertical or subvertical dikes. In one example, data processing and acquisition techniques may be adapted to detect hydrate dikes, and do not assume a horizontally isotropic earth model.
    • 用于使用电磁或地震勘测来检测和/或表征天然气水合物沉积物的探索范例,这说明了天然气水合物可能在垂直或颠簸堤坝中积聚的可能性。 地质因素,如天然气水合物稳定区的存在,表明天然气水合物稳定区以下气体存在(或存在)多产的气源,可以将高通量的气体输送到气体水合物稳定区, 可能被认为是勘探战略的一部分。 可以使用地震技术(例如步行垂直地震剖面技术)或适用于检测垂直或颠簸堤坝存在的电磁勘探来收集数据。 在一个示例中,数据处理和采集技术可以适于检测水合物堤坝,并且不假定水平各向同性的地球模型。