Well test simulation through Discrete Fracture Network modelling in a fractured carbonate reservoir

Casciano, C.; Ruvo, Livio; Volpi, B.; Masserano, Franco

doi:10.1144/1354-079303-590

Cited by 21 publications

(5 citation statements)

References 29 publications

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“…Kemeny and Post, 2003;Reif et al, 2011;Tavani et al, 2013). These studies provide size, spatial and orientation distributions for fracture systems that can be used for Discrete Fracture Network (DFN) analogue modeling in subsurface reservoirs (Cacas et al, 2001;Casciano et al, 2004;Wilson et al, 2011). Fracture aperture, on the other hand, cannot be accurately derived from outcropping rocks, as exhumation and weathering has changed the in-situ apertures in most outcrops.…”

Section: Characterizing Fractured Reservoirsmentioning

confidence: 99%

A geometrically based method for predicting stress-induced fracture aperture and flow in discrete fracture networks

2016

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Section: Characterizing Fractured Reservoirsmentioning

confidence: 99%

A geometrically based method for predicting stress-induced fracture aperture and flow in discrete fracture networks

2016

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“…It has been shown (Bourdet et al , 1989 that the derivative of pressure (dp/dlogt) is more sensitive than the change of pressure itself to the properties of the reservoir. Indeed several authors (Ayoub et al 1983;O'Sullivan 1987, Wei et al 1998Wei 2000;Casciano et al 2004) have shown that the shape of the pressure derivative is sensitive to the properties of the fracture network through which diffusion is occurring. Different representations of the pressure disturbance geometry can be distinguished from the slope of the pressure derivative (Barker 1988), as can the time at which different boundaries are reached by the pressure disturbance.…”

Section: F L O W In the Fracture Networkmentioning

confidence: 99%

“…The way in which pressure changes with time is known to be a function of the properties of the formation (Home 1995) and these data can also be used to infer properties of fracture networks. Although no unique solution exists for such inverse problems, it may be possible to discriminate between different equally plausible models (Wei et al 1998;Casciano et al 2004). Fracture networks are not random systems; they form in response to stresses in the brittle crust and depend on interactions with pre-existing structures.…”

mentioning

confidence: 99%

Study of fracture-induced anisotropy from discrete fracture network simulation of well test responses

Leckenby

Lonergan

Rogers

et al. 2007

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Different conceptualizations of fracture networks have been generated in order to simulate well tests in fractured reservoirs. These models have two purposes: firstly to investigate whether the behaviour of realistic fracture networks can be emulated with more simple models; and secondly to assess whether different sources of anisotropy have characteristic and recognizable influences on the pressure derivative. The anisotropy of the fracture networks was increased by decreasing the angle between two originally orthogonal fracture sets, and by increasing the permeability contrast between two orthogonal fracture sets. Results indicate that simple models can capture the first-order behaviour of more realistic examples. However because early time data are strongly influenced by the connectivity of the fracture network, the degree of anisotropy can only be assessed at later times in a test. Increasing anisotropy results in increasing heterogeneity and compartmentalization, and permeability anisotropy in an orthogonal system can only partially replicate the behaviour of a geometrically anisotropic system.

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“…First, dissolution along preferential zones creates anisotropy in karst systems, which are seen as heterogeneous and complex (Hopkins, 1999). Many current karst models, however, lack the capability to predict their complexities (Casciano et al, 2004). Second, quantification of porosity and permeability is missing from many karst studies, which tend to be descriptive or qualitatively oriented.…”

Section: Introductionmentioning

confidence: 99%

Characterizing and Modelling Fractures and Karst in Carbonate Units - The Porocarste Project

Bezerra

Bertotti²,

Cazarin

et al. 2013

Proceedings

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Well test simulation through Discrete Fracture Network modelling in a fractured carbonate reservoir

Cited by 21 publications

References 29 publications

A geometrically based method for predicting stress-induced fracture aperture and flow in discrete fracture networks

A geometrically based method for predicting stress-induced fracture aperture and flow in discrete fracture networks

Study of fracture-induced anisotropy from discrete fracture network simulation of well test responses

Characterizing and Modelling Fractures and Karst in Carbonate Units - The Porocarste Project

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