The Influence of Natural Joints on the Evolution of Fracturing Curves: From a Numerical Perspective

With the development of fracture-cavity reservoirs, a better understanding of the natural joints is critical to optimizing the hydraulic fracturing operation. However, traditional methodologies, such as well-logging interpretation, are difficult to obtain the properties of natural joints which are d...

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Veröffentlicht in:	Arabian journal for science and engineering (2011) 2023-07, Vol.48 (7), p.9113-9126
Hauptverfasser:	Liu, Zhiyuan, Zhang, Meizhu, Sun, Lei, Ye, Shen, Chen, Zitao, Tang, Xuhai
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Sprache:	eng
Schlagworte:	Algorithms Engineering Evolution Humanities and Social Sciences Hydraulic fracturing multidisciplinary Pressure curve Pressure drop Pressure recovery Research Article-Petroleum Engineering Science Simulation
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container_end_page	9126
container_issue	7
container_start_page	9113
container_title	Arabian journal for science and engineering (2011)
container_volume	48
creator	Liu, Zhiyuan Zhang, Meizhu Sun, Lei Ye, Shen Chen, Zitao Tang, Xuhai
description	With the development of fracture-cavity reservoirs, a better understanding of the natural joints is critical to optimizing the hydraulic fracturing operation. However, traditional methodologies, such as well-logging interpretation, are difficult to obtain the properties of natural joints which are deeply buried. This work proposes a potentially useful method by combining the TOUGH-AiFrac simulator with an inversion algorithm to predict the natural joint properties according to the characteristics of fracturing curves, which are easily obtained in fieldwork. The simulation results show that the fracturing curves experience a significant change when hydraulic fractures connect to natural joints. Three main stages can be observed: (I) pressure increase stage, (II) pressure drop stage, and (III) pressure recovery stage, which are consistent with the field observation. The natural joint plays an important role in the pressure curve evolution, where a larger joint permeability or a longer joint length will induce a larger pressure drop, and a more rapid pressure change rate. Based on the simulation results, an inversion algorithm based on the gradient descent method was then developed to predict the properties of natural joints using fracturing curves characterized by four critical parameters. The present work proposes a promising tool for understanding and predicting the natural joint effect on fracturing curves.
doi_str_mv	10.1007/s13369-022-07097-6
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However, traditional methodologies, such as well-logging interpretation, are difficult to obtain the properties of natural joints which are deeply buried. This work proposes a potentially useful method by combining the TOUGH-AiFrac simulator with an inversion algorithm to predict the natural joint properties according to the characteristics of fracturing curves, which are easily obtained in fieldwork. The simulation results show that the fracturing curves experience a significant change when hydraulic fractures connect to natural joints. Three main stages can be observed: (I) pressure increase stage, (II) pressure drop stage, and (III) pressure recovery stage, which are consistent with the field observation. The natural joint plays an important role in the pressure curve evolution, where a larger joint permeability or a longer joint length will induce a larger pressure drop, and a more rapid pressure change rate. Based on the simulation results, an inversion algorithm based on the gradient descent method was then developed to predict the properties of natural joints using fracturing curves characterized by four critical parameters. The present work proposes a promising tool for understanding and predicting the natural joint effect on fracturing curves.</abstract><cop>Berlin/Heidelberg</cop><pub>Springer Berlin Heidelberg</pub><doi>10.1007/s13369-022-07097-6</doi><tpages>14</tpages><orcidid>https://orcid.org/0000-0002-4962-0644</orcidid></addata></record>
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subjects	Algorithms Engineering Evolution Humanities and Social Sciences Hydraulic fracturing multidisciplinary Pressure curve Pressure drop Pressure recovery Research Article-Petroleum Engineering Science Simulation
title	The Influence of Natural Joints on the Evolution of Fracturing Curves: From a Numerical Perspective
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