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    • 3. 发明授权
    • Method and apparatus and program storage device for generating a workflow in response to a user objective and generating software modules in response to the workflow and executing the software modules to produce a product
    • 用于响应于用户目标生成工作流并响应于工作流生成软件模块并执行软件模块以产生产品的方法和装置和程序存储装置
    • US07876705B2
    • 2011-01-25
    • US10726288
    • 2003-12-02
    • Omer GurpinarSelim DjandjiThomas Reid MillerThomas James Neville
    • Omer GurpinarSelim DjandjiThomas Reid MillerThomas James Neville
    • G01V1/40G06G7/48
    • G06Q10/06
    • A Single Well Predictive Model (SWPM) software based computer system stores a Single Well Predictive Model (SWPM) software therein. When the SWPM software is executed, the SWPM computer system will: (1) automatically produce a first specific workflow comprised of a first plurality of software modules in response to a first set of user objectives and automatically execute the first specific workflow in response to a first set of input data to produce a first desired product, and (2) automatically produce a second specific workflow comprised of a second plurality of software modules in response to a second set of user objectives and automatically execute the second specific workflow in response to a second set of input data to produce a second desired product. There is no longer any need to separately and independently execute the first plurality of software modules of the first workflow in order to produce the first desired product, and there is no longer any need to separately and independently execute the second plurality of software modules of the second workflow in order to produce the second desired product. A considerable amount of time and labor is saved.
    • 基于单井预测模型(SWPM)软件的计算机系统在其中存储单井预测模型(SWPM)软件。 当SWPM软件被执行时,SWPM计算机系统将:(1)响应于第一组用户目标自动地产生由第一组多个软件模块组成的第一特定工作流程,并且响应于 第一组输入数据以产生第一期望产品,以及(2)响应于第二组用户目标自动产生由第二多个软件模块组成的第二特定工作流程,并响应于 第二组输入数据以产生第二所需产品。 不再需要单独并且独立地执行第一工作流程的第一多个软件模块以便产生第一所需产品,并且不再需要单独和独立地执行第二个多个软件模块 第二工作流程以产生第二所需产品。 节省了大量的时间和劳力。
    • 5. 发明申请
    • Integrated reservoir optimization
    • 集成油库优化
    • US20050149307A1
    • 2005-07-07
    • US11070457
    • 2005-03-02
    • Omer GurpinarDavid RossiVidya VermaPhilip Pantella
    • Omer GurpinarDavid RossiVidya VermaPhilip Pantella
    • E21B41/00E21B43/00E21B49/00G01V11/00G06F19/00G06Q10/06G06Q50/02G06G7/48
    • E21B43/00E21B49/00G01V11/00G01V2210/612G06Q10/06Y02P90/84
    • A method of managing a fluid or gas reservoir is disclosed which assimilates diverse data having different acquisition time scales and spatial scales of coverage for iteratively producing a reservoir development plan that is used for optimizing an overall performance of a reservoir. The method includes: (a) generating an initial reservoir characterization, (b) from the initial reservoir characterization, generating an initial reservoir development plan, (c) when the reservoir development plan is generated, incrementally advancing and generating a capital spending program, (d) when the capital spending program is generated, monitoring a performance of the reservoir by acquiring high rate monitor data from a first set of data measurements taken in the reservoir and using the high rate monitor data to perform well-regional and field-reservoir evaluations, (e) further monitoring the performance of the reservoir by acquiring low rate monitor data from a second set of data measurements taken in the reservoir, (f) assimilating together the high rate monitor data and the low rate monitor data, (g) from the high rate monitor data and the low rate monitor data, determining when it is necessary to update the initial reservoir development plan to produce a newly updated reservoir development plan, (h) when necessary, updating the initial reservoir development plan to produce the newly updated reservoir development plan, and (i) when the newly updated reservoir development plan is produced, repeating steps (c) through (h). A detailed disclosure is provided herein relating to the step (a) for generating the initial reservoir characterization and the step (b) for generating the initial reservoir development plan.
    • 公开了一种管理流体或气体储存器的方法,其吸收具有不同采集时间尺度和覆盖范围的不同数据,以迭代地产生用于优化储层的整体性能的储层开发计划。 该方法包括:(a)产生初始油藏特征描述,(b)从初始油藏特征描绘,产生初始油藏开发计划,(c)当油藏开发计划生成时,逐步推进并产生资本支出计划( d)当产生资本支出计划时,通过从在储层中采集的第一组数据测量中获取高速率监测数据并使用高速率监测数据进行区域性和油田储层评估,来监测油藏的性能 (e)通过从储层中采集的第二组数据测量获取低速率监测数据,进一步监测储层的性能,(f)将高速率监测数据和低速率监测数据同时吸收,(g)从 高速率监视数据和低速监视数据,确定何时需要更新初始油藏开发计划以产生新更新的储备 (h)必要时,更新初始水库开发计划,制定新更新的油藏开发计划,(i)当新更新的油藏开发计划生产时,重复步骤(c)至(h)。 本文提供了关于产生初始储层特征的步骤(a)和用于产生初始储层开发计划的步骤(b))的详细公开。
    • 9. 发明授权
    • Method for modeling a reservoir using a 3D wettability map generated from a wettability logging tool
    • 使用由润湿性测井工具生成的3D润湿性图来建模油藏的方法
    • US07716028B2
    • 2010-05-11
    • US11646119
    • 2006-12-27
    • Bernard MontaronOmer Gurpinar
    • Bernard MontaronOmer Gurpinar
    • G06F9/455
    • G01V11/00G06F17/5018G06F2217/16
    • A method is disclosed for modeling a reservoir, comprising: receiving a set of wettability logs from a wettability logging tool adapted to be disposed in a wellbore; generating a wettability map in response to the wettability logs; generating a gridded simulation model, the gridded simulation model including a plurality of grid cells; determining, for each grid cell of the gridded simulation model, a local value of wettability from the wettability map; determining, for each grid cell of the gridded simulation model, a permeability model and a capillary pressure model from the local value of wettability associated with each grid cell; and generating a set of simulation results representing characteristics of the reservoir.
    • 公开了一种用于建模储层的方法,包括:从适于设置在井眼中的润湿性测井工具接收一组润湿性测井; 响应于润湿性原木产生润湿性图; 生成网格模拟模型,网格模拟模型包括多个网格单元; 对于网格模拟模型的每个网格单元,确定来自润湿性图的润湿性的局部值; 根据与每个网格单元相关的润湿性的局部值,确定网格模拟模型的每个网格单元的渗透率模型和毛细管压力模型; 并产生一组代表油藏特征的模拟结果。
    • 10. 发明申请
    • Integrated reservoir optimization
    • 集成油库优化
    • US20070156377A1
    • 2007-07-05
    • US11714033
    • 2007-03-05
    • Omer GurpinarDavid RossiVidya VermaPhilip Pantella
    • Omer GurpinarDavid RossiVidya VermaPhilip Pantella
    • G06G7/48
    • E21B43/00E21B49/00G01V11/00G01V2210/612G06Q10/06Y02P90/84
    • A method of managing a fluid or gas reservoir is disclosed which assimilates diverse data having different acquisition time scales and spatial scales of coverage for iteratively producing a reservoir development plan that is used for optimizing an overall performance of a reservoir. The method includes: (a) generating an initial reservoir characterization, (b) from the initial reservoir characterization, generating an initial reservoir development plan, (c) when the reservoir development plan is generated, incrementally advancing and generating a capital spending program, (d) when the capital spending program is generated, monitoring a performance of the reservoir by acquiring high rate monitor data from a first set of data measurements taken in the reservoir and using the high rate monitor data to perform well-regional and field-reservoir evaluations, (e) further monitoring the performance of the reservoir by acquiring low rate monitor data from a second set of data measurements taken in the reservoir, (f) assimilating together the high rate monitor data and the low rate monitor data, (g) from the high rate monitor data and the low rate monitor data, determining when it is necessary to update the initial reservoir development plan to produce a newly updated reservoir development plan, (h) when necessary, updating the initial reservoir development plan to produce the newly updated reservoir development plan, and (i) when the newly updated reservoir development plan is produced, repeating steps (c) through (h). A detailed disclosure is provided herein relating to the step (a) for generating the initial reservoir characterization and the step (b) for generating the initial reservoir development plan.
    • 公开了一种管理流体或气体储存器的方法,其吸收具有不同采集时间尺度和覆盖范围的不同数据,以迭代地产生用于优化储层的整体性能的储层开发计划。 该方法包括:(a)产生初始油藏特征描述,(b)从初始油藏特征描绘,产生初始油藏开发计划,(c)当油藏开发计划生成时,逐步推进并产生资本支出计划( d)当产生资本支出计划时,通过从在储层中采集的第一组数据测量中获取高速率监测数据并使用高速率监测数据进行区域性和油田储层评估,来监测油藏的性能 (e)通过从储层中采集的第二组数据测量获取低速率监测数据,进一步监测储层的性能,(f)将高速率监测数据和低速率监测数据同时吸收,(g)从 高速率监视数据和低速监视数据,确定何时需要更新初始油藏开发计划以产生新更新的储备 (h)必要时,更新初始水库开发计划,制定新更新的油藏开发计划,(i)当新更新的油藏开发计划生产时,重复步骤(c)至(h)。 本文提供了关于产生初始储层特征的步骤(a)和用于产生初始储层开发计划的步骤(b))的详细公开。