Ontology based multidimensional data warehousing and mining of heterogeneous unconventional-reservoir ecosystems

S. Nimmagadda, H. Dreher, P. C. Mora, A. Lobo
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引用次数: 1

Abstract

A full understanding of many unconventional hydrocarbon resources is not possible because either there are no datasets or only incomplete or unevaluated. Some resources do not even have datasets from wells that have been drilled for exploration purposes. Specifically, unevaluated information on coal, tight gas, shale gas and gas hydrates, is delaying use of technologies that are in place in the market on a commercial scale. In addition, lack of knowledge makes the environmental impact of exploiting an unconventional resource, unpredictable. As a result of the unknowns involving exploration and development risks, productibility and recovery costs, the development of these global resources is being delayed. Evaluation and organization of data on these unconventional resources are needed for any analysis of petroleum ecosystems. As a solution, we propose a robust data-warehousing and mining approach, supported by ontology. Data from unconventional data need to be gathered in a proactive and systematic way. These multidimensional heterogeneous data can be integrated to explore unknown multiple connections among attributes of multiple dimensions of unconventional resources (from different geographic, geological and production regimes). This paper presents an attempt to make use of ontologies written for multiple dimensions to facilitate connections among unconventional petroleum ecosystems. Fine-grained data assist the data-mining procedures for forecasting, in competent and turbulent markets. Sweet spots may have been hidden in databases. The proposed methodology is robust and may be able to resolve issues associated with mining of sweet spots and uncover them from unconventional resource data warehouses and to help adapt technologies for tapping these sweet spots. If the proposed methodology is successful, it can be applied in any basin for all unconventional reservoir ecosystems present.
基于本体的多维数据仓库与异构非常规油藏生态系统挖掘
对非常规油气资源的全面了解是不可能的,因为要么没有数据集,要么不完整或未评估。一些资源甚至没有为勘探目的而钻探的井的数据集。具体来说,关于煤炭、致密气、页岩气和天然气水合物的未经评估的信息,正在推迟市场上现有技术在商业规模上的应用。此外,由于缺乏相关知识,开发非常规资源对环境的影响也难以预测。由于涉及勘探和开发风险、产能和回收成本的未知因素,这些全球资源的开发正在被推迟。任何石油生态系统分析都需要对这些非常规资源的数据进行评估和组织。作为解决方案,我们提出了一个健壮的数据仓库和挖掘方法,由本体支持。非常规数据需要以主动和系统的方式收集。这些多维异构数据可以被整合,以探索非常规资源(来自不同地理、地质和生产制度)多维属性之间的未知多重联系。本文提出了一种尝试,利用多维本体来促进非常规石油生态系统之间的联系。细粒度的数据有助于数据挖掘程序的预测,在竞争力和动荡的市场。最佳点可能隐藏在数据库中。所提出的方法是健壮的,可能能够解决与挖掘甜点相关的问题,并从非常规资源数据仓库中发现它们,并帮助适应开发这些甜点的技术。如果提出的方法是成功的,它可以应用于任何盆地的所有非常规储层生态系统。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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