A review of numerical simulation strategies for hydraulic fracturing, natural fracture reactivation and induced microseismicity prediction

A. S. Shahid; P. A. Fokker; V. Rocca

doi:10.2174/1874834101609010072

A review of numerical simulation strategies for hydraulic fracturing, natural fracture reactivation and induced microseismicity prediction

A. S. Shahid, P. A. Fokker, V. Rocca^*

^*Corresponding author for this work

non-UU output of DES-UU members

Research output: Contribution to journal › Review article › peer-review

Abstract

Hydraulic fracturing, natural fracture reactivation and resulting induced microseismicity are interconnected phenomena involved in shale gas exploitation. Due to their multi-physics and their complexity, deep understanding of these phenomena as well as their mutual interaction require the adoption of coupled mechanical and fluid flow approaches. Modeling these systems is a challenging procedure as the involved processes take place on different scales of space and also require adequate multidisciplinary knowledge. An extensive literature review is presented here to provide knowledge on the modeling approaches adopted for these coupled problems. The review is intended as a guide to select effective modeling approaches for problems of different complexity.

Original language	English
Pages (from-to)	72-91
Number of pages	20
Journal	Open Petroleum Engineering Journal
Volume	9
DOIs	https://doi.org/10.2174/1874834101609010072
Publication status	Published - 1 Jun 2016

Keywords

Geomechanics
Hydraulic fracturing
Induced microseismicity
Shale

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10.2174/1874834101609010072Licence: CC BY-NC

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title = "A review of numerical simulation strategies for hydraulic fracturing, natural fracture reactivation and induced microseismicity prediction",

abstract = "Hydraulic fracturing, natural fracture reactivation and resulting induced microseismicity are interconnected phenomena involved in shale gas exploitation. Due to their multi-physics and their complexity, deep understanding of these phenomena as well as their mutual interaction require the adoption of coupled mechanical and fluid flow approaches. Modeling these systems is a challenging procedure as the involved processes take place on different scales of space and also require adequate multidisciplinary knowledge. An extensive literature review is presented here to provide knowledge on the modeling approaches adopted for these coupled problems. The review is intended as a guide to select effective modeling approaches for problems of different complexity.",

keywords = "Geomechanics, Hydraulic fracturing, Induced microseismicity, Shale",

author = "Shahid, {A. S.} and Fokker, {P. A.} and V. Rocca",

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doi = "10.2174/1874834101609010072",

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AU - Shahid, A. S.

AU - Fokker, P. A.

AU - Rocca, V.

PY - 2016/6/1

Y1 - 2016/6/1

N2 - Hydraulic fracturing, natural fracture reactivation and resulting induced microseismicity are interconnected phenomena involved in shale gas exploitation. Due to their multi-physics and their complexity, deep understanding of these phenomena as well as their mutual interaction require the adoption of coupled mechanical and fluid flow approaches. Modeling these systems is a challenging procedure as the involved processes take place on different scales of space and also require adequate multidisciplinary knowledge. An extensive literature review is presented here to provide knowledge on the modeling approaches adopted for these coupled problems. The review is intended as a guide to select effective modeling approaches for problems of different complexity.

AB - Hydraulic fracturing, natural fracture reactivation and resulting induced microseismicity are interconnected phenomena involved in shale gas exploitation. Due to their multi-physics and their complexity, deep understanding of these phenomena as well as their mutual interaction require the adoption of coupled mechanical and fluid flow approaches. Modeling these systems is a challenging procedure as the involved processes take place on different scales of space and also require adequate multidisciplinary knowledge. An extensive literature review is presented here to provide knowledge on the modeling approaches adopted for these coupled problems. The review is intended as a guide to select effective modeling approaches for problems of different complexity.

KW - Geomechanics

KW - Hydraulic fracturing

KW - Induced microseismicity

KW - Shale

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DO - 10.2174/1874834101609010072

M3 - Review article

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SN - 1874-8341

VL - 9

SP - 72

EP - 91

JO - Open Petroleum Engineering Journal

JF - Open Petroleum Engineering Journal

ER -

A review of numerical simulation strategies for hydraulic fracturing, natural fracture reactivation and induced microseismicity prediction

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Keywords

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