[1] Fjaer, E., Holt, R. M., Horsrud, P., Raaen, A. M., & Risnes, R. (2008). Petroleun Related Rock Mechanics (2nd Edition ed.). Elsevier
[2] Montgomery, C. T., & Smith, M. B. (2010). Hydraulic fracturing: history of an enduring technology. Journal of Petroleum Technology, 62(12), 26-40.
[3] HUBBERT, M. (1957). KING & WILLIS, EG Mechanics of Hydraulic Fracturing. AIME Trans, 210.
[4] Zhang, J. J. (2019). Applied petroleum geomechanics. Gulf Professional Publishing.
[5] Duan, K., Kwok, C. Y., Wu, W., & Jing, L. (2018). DEM modeling of hydraulic fracturing in permeable rock: influence of viscosity, injection rate and in situ states. Acta Geotechnica, 13(5), 1187-1202.
[6] Benouadah, N., Djabelkhir, N., Song, X., Rasouli, V., & Damjanac, B. (2021). Simulation of Competition Between Transverse Notches Versus Axial Fractures in Open Hole Completion Hydraulic Fracturing. Rock Mechanics and Rock Engineering, 54(5), 2249-2265.
[7] ARIA, M., FALLAH, A., & HOSSEINI, M. (2018). Development Of A Model For Estimating The Hydraulic Breakdown Pressure In Carbonate Rocks Of Iranian Oil Wells. JOURNAL OF MINERAL RESOURCES ENGINEERING, 3(1), 13-28.
[8] Liu, H., Wang, H., Wu, H.-A., & Wang, X.-X. (2013). Effect of reservoir porosity and clay content on hydraulic fracture height containment. IPTC 2013: International Petroleum Technology Conference,
[9] Deris Abdolah pour, M. R., Nikkhah, M. S., Naderi, H., & Jalalifar, H. (2022). Effect of porosity and confining pressure on hydrulic fracturing mechanism using experimental tests.
Journal of Petroleum Geomechanics,
4(4), 77-98.
https://doi.org/10.22107/jpg.2022.326868.1157
[10] Lak, M., Marji, M. F., Bafghi, A. Y., & Abdollahipour, A. (2019). A coupled finite difference-boundary element method for modeling the propagation of explosion-induced radial cracks around a wellbore. Journal of Natural Gas Science and Engineering, 64, 41-51.
[11] Abdollahipour, A., Marji, M. F., Bafghi, A. Y., & Gholamnejad, J. (2016). Time-dependent crack propagation in a poroelastic medium using a fully coupled hydromechanical displacement discontinuity method. International Journal of Fracture, 199(1), 71-87.
[12] Nosrati, A., Kadkhodaie, A., Amini, A., Chehrazi, A., Mehdipour, V., & Moslemnezhad, T. (2019). Reservoir properties distribution in the framework of sequence stratigraphic units: A case study from the Kangan Formation, Iranian offshore gas field, the Persian Gulf basin. Journal of Natural Gas Science and Engineering, 65, 1-15.
[13] Crouch, S. L. (1976). Solution of plane elasticity problems by the displacement discontinuity method. I. Infinite body solution. International Journal for Numerical Methods in Engineering, 10(2), 301-343.
[14] Griffith, A. A. (1921). VI. The phenomena of rupture and flow in solids. Philosophical transactions of the royal society of london. Series A, containing papers of a mathematical or physical character, 221(582-593), 163-198.
[15] Irwin, G. R. (1957). Analysis of stresses and strains near the end of a crack traversing a plate.
[16] Marji, M. F., Hosseini_Nasab, H., & Kohsary, A. H. (2006). On the uses of special crack tip elements in numerical rock fracture mechanics. International journal of solids and structures, 43(6), 1669-1692.
[17] Whittaker, B. N., Singh, R. N., & Sun, G. (1992). Rock fracture mechanics. Principles, design and applications.
[18] Zoback, M. D. (2010). Reservoir geomechanics. Cambridge university press.
[19] Najjarzadeh, H., Kazemi, M. S., & Ghassem Alaskari, M. K. (2016). Effect of Porosity on Elastic Moduli in Reservoir Zone of South Pars Field. Journal of Petroleum Research, 26(95), 67-78.
[20] KhoshnevisZadeh, R., Hajian, A., & Larki, E. (2018). Calculation of elasticity modulus and rock strength parameters and their relationship with porosity in Kangan and Dalan formations in one of the well in south pars gas field. Iranian Joural of Petrolum Geology, 7(14), 19-34.