对油田性能响应的地质和工程预测因素的统计分析:英国大陆架油田案例研究

IF 1.8 4区 地球科学 Q3 GEOSCIENCES, MULTIDISCIPLINARY
Ukari Osah, John Howell
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引用次数: 0

摘要

油田生产受多种地质和工程参数的控制,其中许多参数至少部分相互关联。本文采用多元统计方法(主成分分析、回归分析和方差分析)来确定这些参数之间的关系,以及哪些参数在控制和预测油田性能方面最为重要。分析以英国大陆架(UKCS)公开油田数据数据库为基础,对来自 136 个油田的一系列地质、工程和流体相关控制变量进行了预处理和分析。该数据集是范围更广的英国大陆架油田、天然气田和凝析油田项目数据库的一个子集。在本研究中,项目数据库被分为两个数据集:第一个数据集包含来自 136 个油田的 10 个参数,第二个数据集更为详细,包含来自 38 个油田的 27 个参数。使用主成分分析法对两个数据集进行分析,以研究孔隙度、渗透率、生产井数量、气油比和储层温度等数值/统计可查询的预测变量之间可能存在的相关性。然后对预测变量进行回归分析,以便根据 R 平方和回归系数值,获得与采收率系数相关的可预测性(即预测变量对特定结果的指示作用)和敏感性(结果对预测变量的微小变化的敏感程度)的等级。结果表明,主成分分析的关键变量包括油田规模、生产井数量、PVT、总沉积环境和储层质量。回归分析得出的可预测性和敏感性较高的参数包括 API、净毛利、孔隙度和储层深度。这些结果与之前的研究一致,表明只需选定几个输入变量就可以预测油田采收率。作为对所提出的变量排列预测能力的初步测试,使用一个统计软件包进行了最佳子集多元回归,结果证实了主要研究结果。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
A STATISTICAL ANALYSIS OF GEOLOGICAL AND ENGINEERING PREDICTORS OF OILFIELD PERFORMANCE RESPONSE: A CASE STUDY OF OILFIELDS ON THE UK CONTINENTAL SHELF

Oilfield production is controlled by a wide range of geological and engineering parameters, many of which are at least partially interrelated. This paper uses multivariate statistical methods (principal component analysis, regression analysis and analysis of variance) to determine how these parameters are related, and which of them are most significant in controlling and predicting oilfield performance. The analysis is based on a database of publicly available oilfield data from the United Kingdom Continental Shelf (UKCS), from which a series of geological, engineering and fluid-related control variables from 136 fields were pre-processed and analyzed. This dataset is a subset of a much wider project database for UKCS oil, gas and condensate fields. For this study, the project database was divided into two datasets: a first dataset with 10 parameters from 136 fields, and a second, more detailed dataset with 27 parameters from 38 fields. Both datasets were analysed using principal component analysis in order to investigate possible correlations between numerically/statistically interrogable predictor variables such as porosity, permeability, number of production wells, gas-oil ratio and reservoir temperature. A regression analysis was then carried out on the predictor variables in order to obtain a ranking of predictability (i.e. how indicative a predictor is of a particular outcome) and sensitivity (how sensitive an outcome is to slight changes in a predictor) in relation to recovery factor based on R-squared and regression coefficient values. The results showed that key variables from the principal component analysis included field size, number of production wells, PVT, gross depositional environment and reservoir quality. High-ranking parameters of predictability and sensitivity from the regression analysis were found to include API, net-to-gross, porosity and reservoir depth. These results are consistent with previous studies and suggest that it should be possible to forecast oilfield recovery based on only a few selected input variables. As a preliminary test of forecasting ability of the variable permutations put forward, a best-subsets multiple regression was carried out using a statistical software package and yielded results which corroborated the main findings.

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来源期刊
Journal of Petroleum Geology
Journal of Petroleum Geology 地学-地球科学综合
CiteScore
3.40
自引率
11.10%
发文量
22
审稿时长
6 months
期刊介绍: Journal of Petroleum Geology is a quarterly journal devoted to the geology of oil and natural gas. Editorial preference is given to original papers on oilfield regions of the world outside North America and on topics of general application in petroleum exploration and development operations, including geochemical and geophysical studies, basin modelling and reservoir evaluation.
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