Anisotropy and percolation threshold in a multifractal support

Lucena, L. S.; Freitas, J. E.; Corso, Gilberto; Soares, R. F.

doi:10.1590/s0103-97332003000300030

Cited by 12 publications

(9 citation statements)

References 11 publications

(22 reference statements)

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“…The theory of percolation threshold predicts that, in a medium of randomly distributed porosity, this threshold is met at ∼12% . However, if the organic matters present in the shales are in thin laminations, then the percolation threshold would be higher across lamination and lower in the direction perpendicular to it. − Therefore, it suggests that even if the percolation threshold is below or above 12%, the alteration in shale wettability would also be dependent on the direction of organic matter laminations, with respect to the direction of the upward-moving CO 2 . Similarly, the presence and distribution of functional groups within shale surfaces have been observed to strongly influence the shale wettability behavior .…”

Section: Challenges and Perspectivesmentioning

confidence: 99%

Impact of Supercritical CO₂ on Shale Reservoirs and Its Implication for CO₂ Sequestration

et al. 2022

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Hydraulic fracturing has transformed the international energy landscape by becoming the go-to method for the exploitation of natural gas from unconventional shale reservoirs. However, in the recent years, the search for an alternative method of shale-gas exploration has intensified, because of various problems (e.g., contamination of ground and surface water, overexploitation of precious water resources, air pollution, etc.) associated with the usage of water-based fracturing techniques. The use of CO2 for shale gas exploitation has emerged as a better alternative to aqueous-based gas exploration techniques. CO2 when injected into deep shale reservoirs, transitions into supercritical CO2 (SC-CO2) when temperature and pressure condition exceeds the critical point, i.e., 31.1 °C and 7.38 MPa. In this paper, we comprehensively review the impact of SC-CO2 on shale gas reservoirs during the different stages of shale-gas exploration, i.e., (i) drilling, which involves the superiority of SC-CO2 over water-based drilling fluids, in terms of achieving under-balanced well condition, higher rates of penetration, and resistance to formation damage; (ii) fracturing, which involves factors affecting the tortuosity of fractures created by SC-CO2 fracturing, breakdown pressure, and proppant-carrying capacity; and (iii) injection, which involves the twin-headed benefit of enhanced recovery due to CO2/CH4 competitive adsorption and geological sequestration, CO2 vs CH4 excess sorption as a function of pressure, etc. Several research works have indicated discrepancies on how SC-CO2 impacts different shale properties. Some studies show low-pressure N2-gas-adsorption-derived surface area and total pore volume to be increasing with SC-CO2 imbibition, while others show a decreasing trend for the same. Similarly, for some shales, the quartz content, along with the clay mineral contents, decreased as the exposure to SC-CO2 increased, while in some other studies, with similar long-term exposure to SC-CO2, the quartz content was observed to increase along with the decrease in clay content and vice versa. Essentially, the increased exposure to SC-CO2 results in the dissolution of primary porous structures and fractures, and reformation of newer porous structure and conduits in shales. Nonetheless, these changes in the mineralogy weaken the microstructure of the rock bringing significant changes in the mechanical properties of the shales with implications on the wellbore stability and fracturing efficiency. The mechanical properties such as uniaxial compressive strength (UCS), Young’s modulus, and tensile strength decrease as the SC-CO2 saturation period increases. However, some studies have shown factors like bedding angle and phase-state of CO2 having varying effect on the strength behavior of the shales. Moreover, changes in the structure of shales caused by the creation of fractures and the reduction of their strength can also pose major risks, because of potential leakage of CO2 through these created pathways. How these processes would i...

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Section: Challenges and Perspectivesmentioning

confidence: 99%

Impact of Supercritical CO₂ on Shale Reservoirs and Its Implication for CO₂ Sequestration

et al. 2022

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“…The Lucena network starts in the paper [17] that introduces a peculiar multifractal partition of the square, that means, the area lattice distribution of the blocks of the partition follows a multifractal distribution. A review of the properties of multifractal lattice is found in Ref.…”

Section: Introductionmentioning

confidence: 99%

A planar network between short and long range behaviour

Moreira

Lucena

Corso

2015

Physica A: Statistical Mechanics and its Applications

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“…In the reference [1,2] a deterministic multifractal tilling is developed to study percolation in multifractal systems. This object is a natural generalization of the square lattice in which it is possible to estimate analytically the full spectrum of fractal dimensions.…”

Section: -Introductionmentioning

confidence: 99%

A random multifractal tilling

Pereira

Corso

Lucena

et al. 2005

Chaos, Solitons & Fractals

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We develop a multifractal random tilling that fills the square. The multifractal is formed by an arrangement of rectangular blocks of different sizes, areas and number of neighbors. The overall feature of the tilling is an heterogeneous and anisotropic random self-affine object. The multifractal is constructed by an algorithm that makes successive sections of the square. At each n-step there is a random choice of a parameter ρ i related to the section ratio. For the case of random choice between ρ 1 and ρ 2 we find analytically the full spectrum of fractal dimensions.

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Anisotropy and percolation threshold in a multifractal support

Cited by 12 publications

References 11 publications

Impact of Supercritical CO₂ on Shale Reservoirs and Its Implication for CO₂ Sequestration

Impact of Supercritical CO₂ on Shale Reservoirs and Its Implication for CO₂ Sequestration

A planar network between short and long range behaviour

A random multifractal tilling

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Anisotropy and percolation threshold in a multifractal support

Cited by 12 publications

References 11 publications

Impact of Supercritical CO2 on Shale Reservoirs and Its Implication for CO2 Sequestration

Impact of Supercritical CO2 on Shale Reservoirs and Its Implication for CO2 Sequestration

A planar network between short and long range behaviour

A random multifractal tilling

Contact Info

Product

Resources

About

Impact of Supercritical CO₂ on Shale Reservoirs and Its Implication for CO₂ Sequestration

Impact of Supercritical CO₂ on Shale Reservoirs and Its Implication for CO₂ Sequestration