Engineered Completion and Well Spacing Optimization Using a Geologically and Geomechanically Constrained 3D Planar Frac Simulator and Fast Marching Method: Application to Eagle Ford

Paryani, M.; Bachir, A.; Smaoui, R.; Umholtz, N.; Khodabakhshnejad, Arman; Ouenes, Ahmed

doi:10.2118/190070-ms

Cited by 1 publication

(2 citation statements)

References 12 publications

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“…The first result of the reservoir geomechanics approach [11] is the differential stress ( Figure 6) which can be used as shown in Paryani et al [18] to geoengineer completions. The advantage of using differential stress for geoengineering completions is the ability to consider the complex geology beyond the wellbore.…”

Section: Estimation Of Differential Stress: Geomechanics Vs Surface mentioning

confidence: 99%

“…The motivation and the unique features of the Fast-Marching Method (FMM) simulator needed for unconventional reservoirs were described in Ouenes et al [6] and Paryani et al [18]. The input 3D models (Figure 4) and hydraulic fracture geometry (Figure 14) were input in the FMM simulator along with the PVT (Pressure, Volume, Temperature) and other inputs.…”

Section: Unconventional Reservoir Simulation Using Fast Marching Methmentioning

confidence: 99%

See 1 more Smart Citation

Surface Drilling Data for Constrained Hydraulic Fracturing and Fast Reservoir Simulation of Unconventional Wells

Ouenes¹,

Paryani²,

Aimène³

et al. 2019

Exploitation of Unconventional Oil and Gas Resources - Hydraulic Fracturing and Other Recovery and Assessment Techniques

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The objective is to present a new integrated workflow which leverages commonly available drilling data from multiple wells to build reservoir models to be used for designing and optimizing hydraulic fracture treatment and reservoir simulation. The use of surface drilling data provides valuable information along every wellbore. This information includes estimations of geomechanical logs, pore pressure, stresses, porosity and natural fractures. These rock properties may be used as a first approximation in a well-centric approach to geoengineer completions. Combining these logs from multiple wells into 3D reservoir models provides more value including using them in reservoir geomechanics, 3D planar hydraulic fracturing design and reservoir simulation. When using these 3D models and their results in a fast marching method simulator, the impact of the interference between wells can be estimated quickly while providing results like those derived with a classical reservoir simulator. Integrating surface drilling data with 3D reservoir models, hydraulic fracturing design and reservoir simulation into a single software platform results in a fast and constrained approach which allows for a more efficient management of unconventional wells.

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Section: Estimation Of Differential Stress: Geomechanics Vs Surface mentioning

confidence: 99%

Section: Unconventional Reservoir Simulation Using Fast Marching Methmentioning

confidence: 99%

Surface Drilling Data for Constrained Hydraulic Fracturing and Fast Reservoir Simulation of Unconventional Wells

Ouenes¹,

Paryani²,

Aimène³

et al. 2019

Exploitation of Unconventional Oil and Gas Resources - Hydraulic Fracturing and Other Recovery and Assessment Techniques

View full text Add to dashboard Cite

show abstract

Engineered Completion and Well Spacing Optimization Using a Geologically and Geomechanically Constrained 3D Planar Frac Simulator and Fast Marching Method: Application to Eagle Ford

Cited by 1 publication

References 12 publications

Surface Drilling Data for Constrained Hydraulic Fracturing and Fast Reservoir Simulation of Unconventional Wells

Surface Drilling Data for Constrained Hydraulic Fracturing and Fast Reservoir Simulation of Unconventional Wells

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