Main Controlling Factors and Prediction Model of Fracture Scale in Tight Sandstone: Insights from Dynamic Reservoir Data and Geomechanical Model Analysis
Author:
Funder
Young Scientists Fund
Publisher
Springer Science and Business Media LLC
Link
https://link.springer.com/content/pdf/10.1007/s00603-024-03979-3.pdf
Reference56 articles.
1. Allegre CJ, Le Mouel JL, Provost A (1982) Scaling rules in rock fracture and possible implications for earthquake prediction. Nature 297(5861):47–49
2. Bourbiaux B, Basquet R, Cacas MC, Daniel JM, Sarda S (2002) An integrated workflow to account for multi-scale fractures in reservoir simulation models: implementation and benefits. In: Abu Dhabi international petroleum exhibition and conference (pp. SPE-78489). SPE.
3. Cai J, Wood DA, Hajibeygi H, Iglauer S (2022) Multiscale and multiphysics influences on fluids in unconventional reservoirs: modeling and simulation. Adv Geo Energy Res 6(2):91–94
4. Chai Y, Yin S (2021) 3D displacement discontinuity analysis of in- situ stress perturbation near a weak fault. Adv Geo Energy Res 5(3):286–296
5. Cheng Z, Bian L, Chen H, Wang X, Ye D, He L (2022) Multiscale fracture prediction technique via deep learning, seismic gradient disorder, and aberrance: applied to tight sandstone reservoirs in the Hutubi block, southern Junggar Basin. Interpretation 10(4):T647–T663
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