Day 1 Tue, January 11, 2022 2022
DOI: 10.2118/205278-ms
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Controlled Frac Height Growth Technique to Avoid Contacting Water-Bearing Layer

Abstract: Many techniques have been used to model, diagnose and detect fracture dimension and propagation during hydraulic fracturing. Diagnosing fracture dimension growth vs time is of paramount importance to reach the desired geometry to maximize hydrocarbon production potential and prevent contacting undesired fluid zones. The study presented here describes a technique implemented to control vertical fracture growth in a tight sandstone formation being stimulated near a water zone. This gas well was completed vertica… Show more

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“…For the hydraulic fracturing project near the water layer where the stress barrier is insufficient or uncertain, it is necessary to form an artificial barrier in the upper or lower part of the fracture to control the fracture height and avoid crossing the layer. , Hemanta put forward the method to control the growth of fracture height by setting artificial barriers above and below the production layer. These barriers are formed by pumping different densities of proppants with low viscosity carrying liquid, and the proppant quickly settles to the bottom of the fracture or floats to the top of the fracture.…”
Section: Introductionmentioning
confidence: 99%
“…For the hydraulic fracturing project near the water layer where the stress barrier is insufficient or uncertain, it is necessary to form an artificial barrier in the upper or lower part of the fracture to control the fracture height and avoid crossing the layer. , Hemanta put forward the method to control the growth of fracture height by setting artificial barriers above and below the production layer. These barriers are formed by pumping different densities of proppants with low viscosity carrying liquid, and the proppant quickly settles to the bottom of the fracture or floats to the top of the fracture.…”
Section: Introductionmentioning
confidence: 99%