Controlled Frac Height Growth Technique to Avoid Contacting Water-Bearing Layer

Alobaid, Hashem; Asel, Sultan A.; Hansen, Jon; Wijaya, Rio

doi:10.2118/205278-ms

Cited by 1 publication

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References 3 publications

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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%

Experimental Study on the Transport Law of Different Fracturing Granular Materials in Fracture

Guo

et al. 2022

Energy Fuels

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Hydraulic fracturing is an important technology for the development of unconventional oil and gas. The complexity and filling of fractures are important factors for determining the fracturing effect. In order to control the fracture shape and improve the filling of the fracture, it is necessary to inject granular materials such as a temporary plugging agent (TPA) and special performance proppant into the fracture. Understanding the transport law of these granular materials in the fracture can guide us to optimize the fracturing scheme and improve the fracturing effect. In this paper, we studied the transport characteristics of granular TPA, floating agent, new coated quartz sand, micron proppant, ultra-low-density (ULD) proppant, and conventional quartz sand based on the large visual granular transport equipment. The results show that when the TPA of different sizes is injected successively to plug fractures, 20 mPa•s fracturing fluid is suggested for carrying 16/20 mesh TPA in the early stage, and slickwater is suggested for carrying 40/60 mesh TPA in the later stage. The methods of stopping the pump many times with low floating agent concentration or stopping the pump once with high concentration are two ways to realize that the floating agent is laid in the upper part of the fracture to form an artificial barrier. When the injection rate is large, we can only choose the latter. In slickwater, the newly coated quartz sand produces bubbles on its surface and adsorbs each other, which enhances its transport capacity and reduces the amount of sand used. Micron proppant and ULD proppant have the characteristics of less settlement in the major fracture and more settlement in the branched fracture, so they are suitable for filling branched fractures.

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Section: Introductionmentioning

confidence: 99%

Experimental Study on the Transport Law of Different Fracturing Granular Materials in Fracture

Guo

et al. 2022

Energy Fuels

View full text Add to dashboard Cite

show abstract

Controlled Frac Height Growth Technique to Avoid Contacting Water-Bearing Layer

Cited by 1 publication

References 3 publications

Experimental Study on the Transport Law of Different Fracturing Granular Materials in Fracture

Experimental Study on the Transport Law of Different Fracturing Granular Materials in Fracture

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