公开(公告)号：US08180602B2

公开(公告)日：2012-05-15

申请号：US12083020

申请日：2006-09-12

申请人： Scott A Barboza ,  John Steven Davis ,  William R James ,  Jean Christophe Sempere ,  Xiaoli Liu

发明人： Scott A Barboza ,  John Steven Davis ,  William R James ,  Jean Christophe Sempere ,  Xiaoli Liu

IPC分类号： G06F17/10

CPC分类号： E21B47/00 ,  E21B49/00

摘要： Method for making a probabilistic determination of total seal capacity for a hydrocarbon trap, simultaneously considering both capillary entry pressure and mechanical seal capacity, and where capillary entry pressure is estimated by relating it directly to the buoyancy pressure applied by the hydrocarbon column to the top seal. The method thus considers the substantial uncertainty associated with input parameters, which uncertainty limits the utility of such analyses for robust hydrocarbon column height and fluid contact predictions. The method disclosed for estimating seal capillary entry pressure, the requisite input parameter for capillary seal capacity analysis, by inverting trap parameters avoids the need for direct measurement by mercury injection capillary capacity tests on small pieces of rock, which test results often are not available for all desired locations nor are they necessarily representative of adjacent rocks in the seal.

摘要翻译： 同时考虑毛细管进入压力和机械密封能力，以及毛细管入口压力是否通过直接与烃柱施加到顶部密封件的浮力压力进行估计的方法，用于概括确定烃阱的总密封能力的方法 。 该方法因此考虑与输入参数相关的实质性不确定性，这种不确定性限制了这种分析对于稳定的烃柱高度和流体接触预测的效用。 用于估计密封毛细管入口压力的方法，用于毛细管密封容量分析的必要输入参数，通过反转阱参数避免了对小块岩石上的汞注入毛细管容量试验的直接测量的需要，该测试结果通常不可用于 所有所需的位置也不一定代表密封件中的相邻岩石。

公开(公告)号：US20090125238A1

公开(公告)日：2009-05-14

申请号：US12083020

申请日：2006-09-12

申请人： Scott A. Barboza ,  John Steven Davis ,  William R. James ,  Jean Christophe Sempere ,  Xiaoli Liu

发明人： Scott A. Barboza ,  John Steven Davis ,  William R. James ,  Jean Christophe Sempere ,  Xiaoli Liu

IPC分类号： E21B49/00

CPC分类号： E21B47/00 ,  E21B49/00

摘要： Method for making a probabilistic determination of total seal capacity for a hydrocarbon trap, simultaneously considering both capillary entry pressure and mechanical seal capacity, and where capillary entry pressure is estimated by relating it directly to the buoyancy pressure applied by the hydrocarbon column to the top seal. The method thus considers the substantial uncertainty associated with input parameters, which uncertainty limits the utility of such analyses for robust hydrocarbon column height and fluid contact predictions. The method disclosed for estimating seal capillary entry pressure, the requisite input parameter for capillary seal capacity analysis, by inverting trap parameters avoids the need for direct measurement by mercury injection capillary capacity tests on small pieces of rock, which test results often are not available for all desired locations nor are they necessarily representative of adjacent rocks in the seal.

摘要翻译： 同时考虑毛细管进入压力和机械密封能力，以及毛细管入口压力是否通过直接与烃柱施加到顶部密封件的浮力压力进行估计的方法，用于概括确定烃阱的总密封能力的方法 。 该方法因此考虑与输入参数相关的实质性不确定性，这种不确定性限制了这种分析对于稳定的烃柱高度和流体接触预测的效用。 用于估计密封毛细管入口压力的方法，用于毛细管密封容量分析的必要输入参数，通过反转阱参数避免了对小块岩石上的汞注入毛细管容量试验的直接测量的需要，该测试结果通常不可用于 所有所需的位置也不一定代表密封件中的相邻岩石。

公开(公告)号：US08688425B2

公开(公告)日：2014-04-01

申请号：US12933030

申请日：2009-04-13

申请人： Shauna K. Oppert ,  Michael E. Farrell ,  Jonathan Stewart ,  Rene Jonk ,  Scott A. Barboza

发明人： Shauna K. Oppert ,  Michael E. Farrell ,  Jonathan Stewart ,  Rene Jonk ,  Scott A. Barboza

IPC分类号： G06G7/48

CPC分类号： G01V99/00

摘要： At least one transport property for a subsurface region is calculated from derivative seismic data by generating a model relating at least one derivative seismic rock property of a subsurface region to at least one transport property for the subsurface region. At least one transport property is calculated by applying the generated transport property model. Transport phenomena may be simulated with a transport model using at least one transport property generated by applying the model. A model describing evolution of the at least one transport property may be generated within the subsurface region over time, e.g., to facilitate basin modeling of the subsurface region.

摘要翻译： 通过产生与地下区域的至少一个导数地震岩性相关的模型与地下区域的至少一个运输属性相关联，从导数地震数据计算地下区域的至少一个运输属性。 通过应用生成的传输属性模型来计算至少一个传输属性。 传输现象可以使用至少一个通过应用模型生成的传输属性的传输模型来模拟。 描述至少一个运输属性的演变的模型可以随时间在地下区域内产生，例如以便于地下区域的盆地建模。

公开(公告)号：US20110015912A1

公开(公告)日：2011-01-20

申请号：US12933030

申请日：2009-04-13

申请人： Shauna K. Oppert ,  Michael E. Farrell ,  Jonathan Stewart ,  Rene Jonk ,  Scott A. Barboza

发明人： Shauna K. Oppert ,  Michael E. Farrell ,  Jonathan Stewart ,  Rene Jonk ,  Scott A. Barboza

IPC分类号： G06G7/50 ,  G06G7/48

CPC分类号： G01V99/00

摘要： At least one transport property for a subsurface region is calculated from derivative seismic data by generating a model relating at least one derivative seismic rock property of a subsurface region to at least one transport property for the subsurface region. At least one transport property is calculated by applying the generated transport property model. Transport phenomena may be simulated with a transport model using at least one transport property generated by applying the model. A model describing evolution of the at least one transport property may be generated within the subsurface region over time, e.g., to facilitate basin modeling of the subsurface region.

摘要翻译： 通过产生与地下区域的至少一个导数地震岩性相关的模型与地下区域的至少一个运输属性相关联，从导数地震数据计算地下区域的至少一个运输属性。 通过应用生成的传输属性模型来计算至少一个传输属性。 传输现象可以使用至少一个通过应用模型生成的传输属性的传输模型来模拟。 描述至少一个运输属性的演变的模型可以随时间在地下区域内产生，例如以便于地下区域的盆地建模。