会员体验
专利管家(专利管理)
工作空间(专利管理)
风险监控(情报监控)
数据分析(专利分析)
侵权分析(诉讼无效)
联系我们
交流群
官方交流:
QQ群: 891211   
微信请扫码    >>>
现在联系顾问~
热词
    • 2. 发明申请
    • GAS RESERVOIR EVALUATION AND ASSESSMENT TOOL METHOD AND APPARATUS AND PROGRAM STORAGE DEVICE
    • 气体储存评估和评估工具方法和装置和程序存储设备
    • WO2005051069A2
    • 2005-06-09
    • PCT/US2004/038762
    • 2004-11-19
    • SCHLUMBERGER TECHNOLOGY CORPORATIONTHAMBYNAYAGAM, Raj, Kumar, M.SPATH, JeffreyBANERJEE, RajGILCHRIST, John, PhilipMILLER, Tommy
    • THAMBYNAYAGAM, Raj, Kumar, M.SPATH, JeffreyBANERJEE, RajGILCHRIST, John, PhilipMILLER, Tommy
    • G01V1/28G01V11/00G06F19/00
    • G01V99/00
    • A Gas Reservoir Evaluation and Assessment Tool utilizes an Analytical Engine to produce predictions of pressure values and other production data at any point in space and at any point in time in a reservoir. A computer system, such as a workstation, stores a Gas Reservoir Evaluation and Assessment software which includes the Analytical Engine and responds to input data (which includes a reservoir description and fluid properties) by generating an output record which represents a prediction of the pressure values and other data at `any point in space' and at `any point in time' in a reservoir. The Analytical Engine will first calculate a pressure value in 1 D for a single layer of a reservoir at a single point in space and time; it will then calculate a pressure value in ID for multiple layers in the reservoir at the single point in space and time; it will then calculate a pressure value in 2D for the multiple layers at the single point in space and time; it will then calculate a pressure value in 3D for the multiple layers at the single point in space and time; and it will then calculate a pressure values in 3D for multiple layers not only at a single point in space but also at any future point in time.
    • 气藏评估和评估工具利用分析引擎在空间和任何时间点在油藏中产生压力值和其他生产数据的预测。 诸如工作站的计算机系统存储包括分析引擎的气体储存器评估和评估软件,并通过产生表示压力值的预测的输出记录来响应输入数据(其包括储存器描述和流体特性) 和“空间任何一点”和“任何时间点”中的其他数据。 分析引擎将首先在空间和时间的单个点计算单层储层的1 D压力值; 然后在空间和时间的单个点计算储层中多层的ID中的压力值; 然后在空间和时间的单个点计算多层的2D压力值; 然后将在空间和时间的单个点计算多层的3D压力值; 然后它将不仅在空间中的单个点,而且在任何未来的时间点,为多层计算3D中的压力值。