Article: Numerical investigation of single and multiple fractures propagation in naturally fractured reservoirs Journal: International Journal of Oil, Gas and Coal Technology (IJOGCT) 2020 Vol.24 No.2 pp.161 - 178 Abstract: The properties of natural fractures (NFs), including fracture size, aperture width, and mechanical properties, etc., cannot be neglected when developing a model of hydraulic fracturing. Without considering the geological characterisation of NF properties, hydraulic fracture simulations will give much less accurate prediction of complex fracture propagation pattern. In this research, a novel two-dimensional finite-discrete element method (FDEM) model has been developed to describe complex fracture propagation in unconventional formations. We developed a natural fracture network builder by considering natural fractures geological observations. Simulations have been conducted to investigate single fracture and complex fracture network propagation in naturally fractured reservoirs. In hydraulic fracturing treatments, opening of natural fractures is determined by geological properties of NFs. For multiple fractures propagation in naturally fractured reservoirs, stress shadowing effect plays a key role in fracture network evolution. This work provides a framework for more realistic prediction of complex fracture geometry in naturally fractured formations. [Received: December 11, 2017; Accepted: July 6, 2018] Inderscience Publishers - linking academia, business and industry through research

Title: Numerical investigation of single and multiple fractures propagation in naturally fractured reservoirs

Authors: Han Li; Yushi Zou; Shuai Liu; Peter P. Valko

Addresses: CGG, 10300 Town park Dr, Houston, TX 77072, USA ' Institute of Unconventional Gas, China University of Petroleum, 18 Fuxue Rd, Changping, Beijing, 102200, China ' Texas A&M University, 400 Bizzell St, College Station, TX, 77843, USA ' Texas A&M University, 400 Bizzell St, College Station, TX, 77843, USA

Abstract: The properties of natural fractures (NFs), including fracture size, aperture width, and mechanical properties, etc., cannot be neglected when developing a model of hydraulic fracturing. Without considering the geological characterisation of NF properties, hydraulic fracture simulations will give much less accurate prediction of complex fracture propagation pattern. In this research, a novel two-dimensional finite-discrete element method (FDEM) model has been developed to describe complex fracture propagation in unconventional formations. We developed a natural fracture network builder by considering natural fractures geological observations. Simulations have been conducted to investigate single fracture and complex fracture network propagation in naturally fractured reservoirs. In hydraulic fracturing treatments, opening of natural fractures is determined by geological properties of NFs. For multiple fractures propagation in naturally fractured reservoirs, stress shadowing effect plays a key role in fracture network evolution. This work provides a framework for more realistic prediction of complex fracture geometry in naturally fractured formations. [Received: December 11, 2017; Accepted: July 6, 2018]

Keywords: natural fractures; finite-discrete element method; hydraulic fracturing; discrete fracture network.

DOI: 10.1504/IJOGCT.2020.107027

International Journal of Oil, Gas and Coal Technology, 2020 Vol.24 No.2, pp.161 - 178

Received: 11 Dec 2017
Accepted: 06 Jul 2018
Published online: 01 May 2020 *

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Title: Numerical investigation of single and multiple fractures propagation in naturally fractured reservoirs

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