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    • 3. 发明授权
    • Apparatus and method for constant shear rate and oscillatory rheology measurements
    • 用于恒定剪切速率和振荡流变学测量的装置和方法
    • US09274038B2
    • 2016-03-01
    • US13403701
    • 2012-02-23
    • Robert J. MurphyDale E. Jamison
    • Robert J. MurphyDale E. Jamison
    • G01N11/14
    • G01N11/14
    • A rheometer instrument including a stationary frame, a sleeve suspended from the frame, a bob suspended within the sleeve, a cross-spring pivot suspending the bob from the stationary frame, and a force rebalance system for effecting the rotational displacement of the bob with a torque. The force rebalance system includes an arm attached to the movable portion of the cross-spring pivot, a rotational position sensor in close proximity to the arm for measuring the rotational displacement and angular frequency of the arm, and a force actuator positioned to apply force to the arm. The rheometer instrument may be used to calculate the rheological properties of Newtonian and non-Newtonian fluids.
    • 一种流变仪,包括固定框架,从框架悬挂的套筒,悬挂在套筒内的吊杆,将摆锤从固定框架悬挂的交叉弹簧枢轴,以及用于实现摇摆器的旋转位移的力重新平衡系统 扭矩。 力重平衡系统包括附接到交叉弹簧枢轴的可动部分的臂,靠近臂的旋转位置传感器,用于测量臂的旋转位移和角频率,以及力致动器,其被施加到力 手臂。 流变仪可用于计算牛顿和非牛顿流体的流变特性。
    • 6. 发明授权
    • Methods to characterize sag in fluids
    • 表征流体下垂的方法
    • US08387442B2
    • 2013-03-05
    • US12685348
    • 2010-01-11
    • Dale E. JamisonRobert J. Murphy
    • Dale E. JamisonRobert J. Murphy
    • G01N11/02
    • G01N9/36E21B47/10G01N9/00G01N11/00G01N15/04G01N33/2823
    • Systems and methods for direct and indirect measurement of the density of a fluid which exhibits sag characteristics is disclosed. The sag measurement system includes a test container for holding a fluid mixture to be analyzed and a suction port on the test container. A pump is coupled to the suction port for circulating the fluid mixture from the test container through a circulation loop. A measurement device is coupled to the circulation loop and a return port directs the fluid mixture from the circulation loop back to the test container at substantially the same vertical location as the suction port. The fluid mixture flowing through the circulation loop passes through the measurement device before returning to the test container through the return port. The measurement device is operable to monitor the particle distribution of the fluid mixture as it changes due to gravity.
    • 公开了用于直接和间接测量显示出松弛特性的流体密度的系统和方法。 下垂测量系统包括用于保持要分析的流体混合物的测试容器和测试容器上的吸入口。 泵耦合到吸入口,用于使流体混合物从测试容器循环通过循环回路。 测量装置耦合到循环回路,并且返回端口将流体混合物从循环回路引导回到与吸入口基本相同的垂直位置处的测试容器。 流经循环回路的流体混合物在通过返回口回到测试容器之前通过测量装置。 测量装置可操作以监测流体混合物由于重力而变化时的颗粒分布。
    • 10. 发明授权
    • Systems and methods for real time monitoring of gas hydrate formation
    • 气体水合物形成的实时监测系统和方法
    • US09335438B2
    • 2016-05-10
    • US13713940
    • 2012-12-13
    • Dale E. JamisonStephen W. Almond
    • Dale E. JamisonStephen W. Almond
    • G05D9/00G01V8/02G06F15/00G01V8/12E21B21/00
    • G01V8/02E21B21/00G01N21/31G01N21/85G01V8/12G06F15/00
    • Disclosed are systems and methods for monitoring a drilling fluid for the formation of gas hydrates. One system includes a borehole containing a drilling fluid being circulated therethrough, a first optical computing device arranged in the borehole and having at least one integrated computational element configured to optically interact with the drilling fluid and detect one or more gas hydrates present therein, and at least one detector arranged to receive optically interacted light generated from optical interaction between the at least one integrated computational element and the drilling fluid, the at least one detector being configured to generate a first output signal corresponding to a characteristic of the one or more gas hydrates.
    • 公开了用于监测用于形成气体水合物的钻井液的系统和方法。 一个系统包括钻孔,该钻孔包含循环通过其中的钻井流体,布置在钻孔中的第一光学计算装置,并且具有配置成与钻井流体光学相互作用并检测其中存在的一种或多种气体水化物的至少一个集成计算元件, 至少一个检测器被布置成接收由所述至少一个集成计算元件和钻井流体之间的光学相互作用产生的光学相互作用的光,所述至少一个检测器被配置为产生对应于所述一个或多个气体水合物的特性的第一输出信号 。