Closing the Gap in Characterizing the Parent Child Effect for Unconventional Reservoirs - A Case of Study in Vaca Muerta Shale Formation

This paper examines the impact of parent depletion on well performance of child wells in a stacked pay unconventional basin with horizontal wells landed in multiple benches. Both intra-bench and inter-bench parent-child were considered, and examples described. This paper also addresses future development implications that result from best-bench-first development in stacked unconventional plays as a function of degradation in child well EURs. This work focuses on both horizontal/vertical interference where presence of pre-existing fracs and depletion in parent wells impact fracture height growth/length and resulting productive frac size in child wells. Two case studies were selected to demonstrate intra-bench and inter-bench parent-child degradations. In the first case study focused on intra-bench parent/child, two adjacent development sections were evaluated, each having been developed as phased developments (multiple landing targets) and with a 9-month lag in first production between the sections. In the second case study focused on inter-bench parent/child, two nearby sections were considered in which different phased development strategies were employed across three distinct landing targets. In both case studies, significant child well degradation was observed in both bottom hole pressures and well production data; observations of impacts to parent wells were also noted. These findings are further supported by modeling efforts. Combined, these case studies indicate that both inter-bench and intra-bench parent-child are significant concerns in stacked unconventional plays, such as those found in the Permian Basin. Our attempts to fully negate the impact of parent-child through later development choices, or to develop child wells without waste, have proven unsuccessful. Complete mitigation of parent-child impacts requires both co-development of potentially connected landing targets (inter-bench) and mow-down development of adjacent development sections (intra-bench).

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A Comparative Analysis of Completion and Reservoir Data to Decipher Productivity Drivers in North American Tight and Shale Plays

Indina,

Singh,

Liu

et al. 2024

SPE Annual Technical Conference and Exhibition

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The primary objective of this study is to thoroughly assess the influence of various completion, fracturing stimulation, and intrinsic reservoir properties affecting productivity of ten major unconventional oil and gas plays while uncovering key insights and emerging trends unique to each play. We examined a dataset comprising of 91,519 horizontal wells that began production on or after January 1st, 2015, across ten major unconventional oil and gas plays (Bakken, Delaware, Duvernay, Midland, Eagle Ford, Scoop|Stack, Haynesville, Marcellus, Montney, and Utica) in North America. The analysis centered on four main aspects: well fracturing, downhole consumables, production, and geological properties. The horizontal and vertical well spacings were based on the horizontal and vertical distance between the target wellbore and its closest near neighbor in any zone, respectively. The wells were classified as parent, child, or co-completed based on the distance and timeframe between their completion. The Bakken-US play shows the most remarkable increase in normalized production per 1000 ft of lateral, almost doubling from 2015 to 2024, while Scoop|Stack experienced a decline in normalized production. Bakken and Montney, with high TOC, had low normalized productivity, whereas Utica, despite low TOC, was highly productive, underscoring completion quality's importance over organic quality. Although high brittleness is usually seen as beneficial for promoting fracturing, it is intriguing to note that plays with fewer wells per pad (e.g., Scoop|Stack) exhibit a higher growth rate of fractures, even when they have a lower brittleness index (median < 0.34). Horizontal spacing plays a crucial role in optimizing performance. Less productive plays benefit from denser development. Co-completed wells outperform other sequencing, indicating their ability to mitigate "frac hits" or fracture-driven interactions. Longer laterals offer better resource contact, but productivity does not increase linearly. Sand remained the predominant proppant used in all plays due to cost-effectiveness. Freshwater remains the dominant frac fluid across all plays, and slickwater frac jobs consistently yield high productivity. The type of chemicals in terms of their dominant use varies across plays, but the trend in each play is largely unchanged since 2015. The number of clusters per stage varies across plays, and increasing the number of clusters may not always lead to enhanced productivity due to the stress shadowing effect. This study offers important insights into factors affecting productivity in shale plays, aiding future well development and resource extraction optimization. It provides technical guidance for unconventional oil and gas developments in North America and is a useful reference for similar projects globally, including in China.

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Closing the Gap in Characterizing the Parent Child Effect for Unconventional Reservoirs - A Case of Study in Vaca Muerta Shale Formation

Cited by 3 publications

References 12 publications

Productivity drivers in North American tight and shale plays: A comprehensive analysis of completion trends, stimulation parameters, and geological characteristics

Productivity drivers in North American tight and shale plays: A comprehensive analysis of completion trends, stimulation parameters, and geological characteristics

Long Term Development Implications of Parent-Child Interactions in Unconventional Reservoirs

A Comparative Analysis of Completion and Reservoir Data to Decipher Productivity Drivers in North American Tight and Shale Plays

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