2020
DOI: 10.1016/j.petrol.2019.106455
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Experimental study on plugging behavior of degradable fibers and particulates within acid-etched fracture

Abstract: As proven from field practices in North America and Northwest China, temporary plugging and diverting acid fracturing is an indispensable technology to enhance stimulation effect and hydrocarbon production of complex carbonate reservoirs. It's well-known that the key to the success of this technology lies in creating a temporary plugging within the previously created fractures. Consequently, many scholars have conducted laboratory experiments to investigate the plugging behavior of fibers and particulates. How… Show more

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Cited by 43 publications
(12 citation statements)
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References 34 publications
(33 reference statements)
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“…In the process of actively strengthening the wellbore, the fracture tip is isolated from the wellbore pressure by the plugging material slurry, thereby preventing the expansion of the fracture. Corrective borehole strengthening is a method to effectively improve the fracture resistance of rock formations by improving the formation 2 Geofluids closure stress and increasing the hoop stress in the nearwellbore area. The most common wellbore-strengthening theories are ring compression stress enhancement (stress cage) [28,29], fracture propagation resistance (FPR) [30], and fracture closure stress (FCS) [31].…”
Section: Fracture Plugging Theorymentioning
confidence: 99%
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“…In the process of actively strengthening the wellbore, the fracture tip is isolated from the wellbore pressure by the plugging material slurry, thereby preventing the expansion of the fracture. Corrective borehole strengthening is a method to effectively improve the fracture resistance of rock formations by improving the formation 2 Geofluids closure stress and increasing the hoop stress in the nearwellbore area. The most common wellbore-strengthening theories are ring compression stress enhancement (stress cage) [28,29], fracture propagation resistance (FPR) [30], and fracture closure stress (FCS) [31].…”
Section: Fracture Plugging Theorymentioning
confidence: 99%
“…The lost circulation material is carried into the fracture by drilling fluid or a particular lost circulation slurry. The behavior of fluid and particles in this transport process can be described by equations ( 1) and (2). According to the drilling fluid loss model in a single nonsite fracture established by Li et al [33], for the non-Newtonian Heba drilling fluid, the flow velocity equation in the fracture is…”
Section: Fracture Plugging Theorymentioning
confidence: 99%
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“…Because the natural fracture is easily connected and etched by gelled acid for creating complex fracture network, gelled acid is widely used in the acid stimulation of marine carbonate reservoirs in Sichuan Basin (Gou et al 2021a, b). To improve the performance of acid distribution and reduce acid leak-off in the acid stimulation process, degradable fiber is used to temporarily block natural fractures and acid-etching wormholes, which makes acid divert to another un-stimulated area to create new fractures and assists in controlling acid leak-off (Guo et al 2015a;Zhang et al 2020;Jauregui et al 2011;Quevedo et al 2012). Acid rheological properties have a large influence on fracture morphology, acid-rock reaction rate and the effective penetration distance of living acid, etching morphology and fracture conductivity, and acid leak-off (Gou et al 2021a(Gou et al , 2021bDong et al 2018;Rui et al 2018;Mou et al 2012).…”
Section: Introductionmentioning
confidence: 99%
“…During acid fracturing in carbonate reservoir, there are two types of fiber mixing ways. One way of mixing is that the fiber is mixed with fracturing fluid, slick water, and the blend is injected into the formation as a diverter stage, and then followed by acid (Guo et al 2015a;Zhang et al 2020). The other way is that the fiber is directly mixed with acid (Jauregui et al 2011;Quevedo et al 2012).…”
Section: Introductionmentioning
confidence: 99%