Understanding Frac Fluid Distribution of an Individual Frac Stage from Chemical Tracer Flowback Data

Tian, Wei; Darnley, Alex; Mohle, Teddy; Johns, Kyle; Dempsey, Chris

doi:10.2118/194362-ms

Cited by 10 publications

(2 citation statements)

References 14 publications

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“…This information can be used to further evaluate the effectiveness of the fracturing operation . To further characterize the flow state of the fracturing fluid, RTDA (residence time distribution analysis) has been combined with downhole tracers to determine the transition time from the fracture to the surface for each tracer section . To provide a more comprehensive characterization of the flow behavior of fracturing fluids, the combination of residence time distribution analysis (RTDA) and downhole tracers can be utilized.…”

Section: Introductionmentioning

confidence: 99%

“…25 To further characterize the flow state of the fracturing fluid, RTDA (residence time distribution analysis) has been combined with downhole tracers to determine the transition time from the fracture to the surface for each tracer section. 26 To provide a more comprehensive characterization of the flow behavior of fracturing fluids, the combination of residence time distribution analysis (RTDA) and downhole tracers can be utilized. This approach allows for the determination of the transit time from the fracture to the surface for each tracer segment, providing insights into the flow dynamics of the fracturing fluid.…”

Section: Introductionmentioning

confidence: 99%

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Study on Interpretation Method of Multistage Fracture Tracer Flowback Curve in Tight Oil Reservoirs

Du,

Hao,

et al. 2024

ACS Omega

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Multistage fracturing is widely used in the development of tight oil reservoirs, and the fine description of postfracturing fracture networks is a challenge in tight oil reservoir development. Based on the formation mechanism of dual-wing fractures and the principles of tracer flowback, a mathematical model for tracer concentration in dual-wing fractures is established by considering the convective diffusion of the tracer within the fractures. An interpretation method for tracer flowback curves, utilizing a combination of Gaussian fitting and theoretical equation inversion, is developed to provide a detailed description of fracture parameters such as fracture half-length, fracture width, and fracture conductivity in the postfracturing fracture network. This method can be rapidly applied in field practices. Application examples demonstrate that the relative errors between the calculated cumulative oil and water production using this method and the actual data are less than 5%, validating the accuracy and applicability of the established mathematical model for tracer flowback and the interpretation method for tracer concentration curves in addressing practical problems.

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Section: Introductionmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

Study on Interpretation Method of Multistage Fracture Tracer Flowback Curve in Tight Oil Reservoirs

Du,

Hao,

et al. 2024

ACS Omega

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A study of the mechanism of nonuniform production rate in shale gas based on nonradioactive gas tracer technology

Huang¹,

Li²,

Wu³

et al. 2020

Energy Science & Engineering

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The performance of horizontal wells in shale gas is controlled by multiple factors, and there is a difference in gas production rate between different fracturing stages. However, the mechanism of the nonuniform gas production rate is still not clear. In this paper, a typical shale gas well in the Longmaxi formation was selected to conduct the performance evaluation based on the nonradioactive gas tracer technology. The gas production profile was obtained, and the production feature of each stage was analyzed. On this basis, the production differences between fracturing stages were compared in four aspects: reservoir physical properties, distribution of natural fracture, parameters of fracturing operation, and technology of temporary plugging re‐orientation. The effect of various factors on the contribution of each stage was analyzed. And then, the mechanism of the nonuniform gas production rate was clarified. Finally, relevance analysis was performed to determine the main controlling factors, and a mathematical model for characterizing the nonuniform gas production rate feature was established by adopting the nonlinear regression method. This study provides a reliable basis for optimal fracturing designing and reasonable production planning.

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Application and Development of Tracer Test in Oil-Gas Industry

Chen,

Wen,

Shi

et al. 2024

Springer Series in Geomechanics and Geoengineering

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Understanding Frac Fluid Distribution of an Individual Frac Stage from Chemical Tracer Flowback Data

Cited by 10 publications

References 14 publications

Study on Interpretation Method of Multistage Fracture Tracer Flowback Curve in Tight Oil Reservoirs

Study on Interpretation Method of Multistage Fracture Tracer Flowback Curve in Tight Oil Reservoirs

A study of the mechanism of nonuniform production rate in shale gas based on nonradioactive gas tracer technology

Application and Development of Tracer Test in Oil-Gas Industry

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