Modeling and Data Analytics Workflow From Delineation to Development: A Case Study Utilizing Limited Data in the Extensional Deep Dry Utica Shale Play of Pennsylvania

A. Passman
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引用次数: 1

Abstract

The Deep Dry Utica, also known as the Extensional Utica, is a newly recognized shale play in Pennsylvania and West Virginia. The most developed part of the dry gas Utica shale, in Monroe County, OH, is an inexact analogue as it shares limited characteristics with the Deep Dry Utica to its east. Unconventional workflows based on analogue plays often rely on the statistical significance of trends, impossible to exploit when each data point in a new play is unique, and results are unrepeatable. With only the data from a handful wells in the public domain, and a few wells being drilled by operators where the data is still private, understanding the reservoir and geologic complexity of the Deep Dry Utica has eluded most operators. The play has seen early successes and failures, with wells exceeding initial production rates (IP) of 60 MMcf/day and wells so difficult to drill that they were unable to be completed due to financial limitations. Thus, structurally complex shale plays like the Deep Dry Utica with limited data require a new methodology to rapidly move from delineation to development mode. With a limited heterogeneous data set, subsurface modeling and data analytics in conjunction with analogue analysis allow operators to rapidly understand performance indicators, optimize location selection, well spacing, horizontal drilling and completion designs. This paper describes the modeling and analytics-based workflow utilized to unlock commercial viability of the Deep Dry Utica, making the play commercially competitive with Marcellus Shale development. The workflow described in this paper utilizes earth modeling, reservoir and completion modeling and contemporary data analytics techniques to accelerate development. The workflow is demonstrated in a case study from the Deep Dry Utica in Pennsylvania, moving from delineation to commercial development, with less than a dozen data points across 500,000 thousand acres.
从圈定到开发的建模和数据分析工作流程:利用有限数据在宾夕法尼亚州Utica伸展深层干燥页岩区进行的案例研究
深干尤蒂卡,也被称为伸展尤蒂卡,是宾夕法尼亚州和西弗吉尼亚州新近发现的页岩区。位于美国俄亥俄州门罗县的Utica干气页岩最发达的部分是一个不精确的类比,因为它与其东部的深干Utica具有有限的特征。基于模拟储层的非常规工作流程通常依赖于趋势的统计意义,当新储层中的每个数据点都是独一无二的,并且结果不可重复时,就不可能利用这些数据。由于只有少数几口井的数据是公开的,而运营商钻探的几口井的数据仍然是私有的,因此大多数运营商都无法了解深干Utica的储层和地质复杂性。该区块经历了早期的成功和失败,一些井的初始产量(IP)超过了60亿立方英尺/天,但由于资金限制,这些井很难钻完井。因此,像深干Utica这样结构复杂的页岩区,数据有限,需要一种新的方法来快速从圈定到开发模式。利用有限的异构数据集,地下建模和数据分析与模拟分析相结合,使作业者能够快速了解性能指标,优化位置选择、井距、水平钻井和完井设计。本文介绍了基于建模和分析的工作流程,用于解锁Utica深干区块的商业可行性,使该区块与Marcellus页岩开发具有商业竞争力。本文描述的工作流程利用地球建模、储层和完井建模以及现代数据分析技术来加速开发。在宾夕法尼亚州深干尤蒂卡的一个案例研究中,该工作流程从圈定到商业开发,在50万英亩的土地上只有不到12个数据点。
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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