Purswani, P., R. T. Johns, and Z. Karpyn, (2024). Relationship Between Residual Saturations and Wettability Using Pore-network Modeling, SPE journal (Society of Petroleum Engineers (U.S.) : 1996), v. 29 (4), pp. 2004-2013. |
Purswani, P., R. T. Johns, and Z. T. Karpyn, (2024). Impact of wettability on capillary phase trapping using pore-network modeling, Advances in Water Resources, v. 184, pp. 104606. |
Liu Z. and H. Emami-Meybodi, (2023). Gas transport modeling in organic-rich nanoporous media with nonequilibrium sorption kinetics, Fuel, v. 340 [127520]. |
Soomro, M., L. F. Ayala H., C. Peng, and O. M. Ayala, (2023). Fugacity-based lattice Boltzmann method for multicomponent multiphase systems, Phys. Rev. E, v. 107, [015304]. |
Cai, M., Y. Su, S. Zhan, and D. Elsworth, and L. Li, (2022). Immiscible/Near-Miscible relative permeability for confined fluids at high-pressure and high-temperature for a fractal reservoir, Fuel, v. 310, pp. 122389. |
Chakraborty, N., X. Lou, K. Enab, and Z. Karpyn, (2022). Measurement of In-situ Fluid Density in Shales with Sub-Resolution Porosity Using X-Ray Microtomography, Transport in Porous Media, pp. 1-21, https://doi.org/10.1007/s11242-021-01738-4. |
Hu, Y., G. Quan, A. Hurst, and D. Elsworth, (2022). Hydraulic fracture propagation and interaction with natural fractures by coupled hydro-mechanical modeling. Geomechanics and Geophysics for Geo-Energy and Geo-Resources v. 8, 4, pp. 1-26, https://doi.org/10.1007/s40948-021-00307-9 |
Jia, Y., Chenpeng Song, and R. Liu, (2022). The Frictional Restrengthening and Permeability Evolution of Slipping Shale Fractures During Seismic Cycles, Rock Mechanics and Rock Engineering, v. 123, https://doi.org/10.1007/s00603-021-02751-1 |
Lee, L. and A. Dahi Taleghani, (2022). Assessment of Lost Circulation Material Particle-Size Distribution on Fracture Sealing: A Numerical Study, SPE Drilling & Completion, pp. 1-15. |
Lin, C., A. Dahi Taleghani, Y. Kang, and C. Xu, (2022). A coupled CFD-DEM numerical simulation of formation and evolution of sealing zones, Journal of Petroleum Science and Engineering, v. 208, pp. 109765. |
Liu, Z. and H. Emami-Meybodi, (2022). Apparent diffusion coefficient for adsorption-controlled gas transport in nanoporous media, Chem. Eng. J., v. 450 (4), [138105]. |
Liu, Z. and H. Emami-Meybodi, (2022). Continuum-scale gas transport modeling in organic nanoporous media based on pore-scale density distributions, SPE J., SPE-205886-PA. |
Lou, X., N. Chakraborty, and Z. Karpyn, (2022). “Experimental Investigation of Shale Rock Properties Altering in-situ Gas Density and Storage Capacity,” Frontiers in Earth, April 2022. https://doi.org/10.3389/feart.2022.877551 |
Magzymov, D., R. T. Johns, H. Hashim, and B. Dindoruk, (2022). Modeling of High Pressure and Temperature Microemulsion Experiments using HLD-NAC Based Equation of State, SPE Improved Oil Recovery Conference, virtual April 2022, [ SPE-209470-MS], https://doi.org/10.2118/209470-MS |
Magzymov, D., R. T. Johns, H. Hashim, and B. Dindoruk, (2022). Modeling of High-Pressure and High-Temperature Microemulsion Experiments using HLD-NAC-Based Equation of State, SPE Journal, [SPE-209470-PA], https://doi.org/10.2118/209470-PA. |
Mukherjee, S., R. T. Johns, S. Foroughi, and M. J. Blunt, (2022). Fluid – Fluid Interfacial Area and Its Impact on Relative Permeability - A Pore Network Modeling Study, virtual April 2022, SPE Improved Oil Recovery Conference, [SPE-209445-MS], https://doi.org/10.2118/209445-MS. |
Santos, L. and A. Dahi Taleghani, (2022). On quantitative assessment of effective cement bonding to guarantee wellbore integrity, Journal of Energy Resources Technology, v. 144 (1), [013001]. |
Tawfik, M. S., A. S. Adishesha, Y. Hsi, P. Porswani, R. T. Johns, P. Shokouhi, X. Huang, and Z. Karpyn, (2022). Comparative Study of Traditional and Deep-Learning Denoising Approaches for Image-Based Petrophysical Characterization of Porous Media, Frontiers in Water, v. 3, [800369], doi: 10.3389/frwa. |
Tian, J., J. Liu, D. Elsworth, Y. K. Leong, W. Li, and J. Zeng, (2022). Shale gas production from reservoirs with hierarchical multiscale structural heterogeneities, Journal of Petroleum Science and Engineering, v. 208, [109380]. |
Yeu, W. and John Y. Wang, (2022). Integrated reservoir evaluation and simulation study for gas injection: A field case study, IOP Conf. Series: Earth and Environmental Science, v. 983, [012042], doi:10.1088/1755-1315/983/1/012042. |
Yoga, H. F., P. Purswani, and R. T. Johns, (2022). Predictive Model for Relative Permeability Using Physics-Based Artificial Neural Networks, SPE Improved Oil Recovery Conference, virtual April 2022, [SPE-209420-MS], https://doi.org/10.2118/209420-MS. |
Zhang, F. and H. Emami-Meybodi, (2022). Semianalytical method of two-phase liquid transport in shale reservoirs and its application in fracture characterization, AIChE J., v. 68, [e17449]. |
Zhang, M., and L. F. Ayala H., (2022). The Dual-Reciprocity Boundary Element Analysis for Hydraulically Fractured Shale Gas Reservoirs, Transport Porous Media, v. 142, pp. 531-557, https://doi.org/10.1007/s11242-022-01757-9. |
Zhang, M., J. Garcez, and L. F. Ayala H., (2022). A Similarity-based Solution for Nonlinear Gas Fractional Diffusivity Equation with Application to Rate Transient Analysis of Unconventional Heterogenous Reservoirs, SPE J, Dec. 2022. |
Zhang, Q., W. Liu, and A. Dahi Taleghani, (2022). Numerical study on non-Newtonian Bingham fluid flow in development of heavy oil reservoirs using radiofrequency heating method, Energy, v. 239, [122385]. |
Cai, M., Y. Su, Y. Hao, Y. Guo, D. Elsworth, L. Li, D. Li, and X. Li, (2021). Monitoring oil displacement and CO2 trapping in low-permeability media using NMR: A comparison of miscible and immiscible flooding, Fuel, v. 305, pp. 121606. |
Cai, Y. A. Dahi Taleghani, (2021). Axial Fracture Initiation During Diagnostic Fracture Injection Tests and Its Impact on Interpretations, Rock Mechanics and Rock Engineering, v. 54 (11), pp. 5845-5865. |
Cao, Y., J. Zhang, X. Zhang, Shimin Liu, and D. Elsworth, (2021). Micro-fractures in coal induced by high pressure CO2 gas fracturing, Fuel, v. 311, pp. 122148. |
Chen, T., X. Zheng, X. Qiu, X. T. Feng, D. Elsworth, G. Cui, Z. Jia, and Z. Pan, (2021). Experimental study on the feasibility of microwave heating fracturing for enhanced shale gas recovery, Journal of Natural Gas Science and Engineering, v. 94, pp. 104073. |
Chen, T., X. Zheng, X. Qiu, X. T. Feng, D. Elswroth, G. Cui, Z. Jia, and Z. Pan, (2021). Experimental study on the feasibility of microwave heating fracturing for enhanced shale gas recovery, Journal of Natural Gas Science and Engineering, v. 94, pp. 104073. |
Consolazio, N., J. A. Hakala, G. V. Lowry, and A. K. Karamalidis, (2021). Sorption and transformation of biocides from hydraulic fracturing in the Marcellus Shale: a review, Environmental Chemistry Letters. https://doi.org/10.1007/s10311-021-01352-2. |
Cronin, M., H. Emami-Meybodi, and R. T. Johns, (2021). Multicomponent diffusion modeling of cyclic solvent injection in ultratight reservoirs, SPE Journal, v. 26(3), pp. 1213-1232, https://doi.org/10.2118/196008-PA. |
D’Souza, S. A., S. Banik, H. B. Vuthaluru, S. V. Pisupati, (2021). Comparison of Natural and Synthetic Petroleum Coke Slag Viscosities under Reducing Conditions: Applicability of Predictive Models Using Factsage and Modified Urbain Model, Fuels, v. 2 (1), pp. 37-47; https://doi.org/10.3390/fuels2010003 |
Dindoruk, B., R. T. Johns, and F. M. Orr, Jr., (2021). Measurement and Modeling of Minimum Miscibility Pressure: A State-of-the-Art Review, SPE Reservoir Evaluation & Engineering, v. 24 (02), pp. 367-389. |
Duffy, T. S., I. K. Gamwo, R. T. Johns, and S. N. Lvov, (2021). Modeling Contact Angle vs. Temperature for the Quartz-Water-Decane System, SPE Journal, v. 26 (06), pp 3668-3680, https://doi.org/10.2118/205518-PA. |
Duffy, T. S., J. Li, R. T. Johns, and S. N. Lvov, (2021). Capillary contact angle for the quartz-distilled water-normal decane interface at temperatures up to 200° C, Colloids and Surfaces A: Physicochemical and Engineering Aspects, v. 609, pp. 125608. |
Duffy, T., D. M. Hall, S. N. Lvov, and M. Ziomek-Moroz, (2021). Novel Membrane-Based Corrosion Sensors For Operating In Natural Gas Pipelines, CORROSION 2021, NACE-2021-16870 . |
Emami-Meybodi, H. and F. Zhang, (2021). Buoyancy-driven instabilities of partially miscible fluids in inclined porous media, Journal of Fluid Mechanics, v. 926 (A32). doi:10.1017/jfm.2021.738. |
Enab, K. and H. Emami-Meybodi, (2021). Impact of reservoir fluid and injection gas on shales huff-N-puff performance in the presence of diffusion, sorption, and hysteresis, Proceedings - SPE Annual Technical Conference and Exhibition, v. 2021-September, https://doi.org/10.2118/206194-MS. |
Enab, K., and H. Emami-Meybodi, (2021). Effects of diffusion, adsorption, and hysteresis on huff-n-puff performance in ultratight reservoirs with different fluid types and injection gases, Energies, v. 14(21), [7379], https://doi.org/10.3390/en14217379. |
Gajda, D., Shimin Liu, and M. Lutynski, (2021). The concept of hydrogen-methane blends storage in underground mine excavations - Gas permeability of concrete, E3S Web of Conferences, v. 266, [03007], https://doi.org/10.1051/e3sconf/202126603007. |
Hou, L, S. Zhang, D. Elsworth, H. Liu, B. Sun, and X. Geng, (2021). Review of fundamental studies of CO2 fracturing: fracture propagation, propping and permeating, Journal of Petroleum Science and Engineering, v. 205, pp. 108823. |
Hou, L. and D. Elsworth, (2021). Mechanisms of tripartite permeability evolution for supercritical CO2 in propped shale fractures, Fuel, v. 292, pp. 120188. |
Kennedy, J. R., A. B. Khadikar, S. Bhattacharya, and S. V. Pisupati, (2021). Modeling the Impact of Operating Variables on Ash Agglomeration in Chemical Looping Combustion of Solid Fuels, Industrial & Engineering Chemistry Research, v. 60 (49), pp. 17970–17979, https://doi.org/10.1021/acs.iecr.1c03149. |
Khorsandi, S., L. Li, and R. T. Johns, (2021). A new way of compositional simulation without phase labeling, SPE Journal, v. 26 (02), pp. 940-958. |
Liu, Y., Shimin Liu, R. Zhang, and Y. Zhang, (2021). The molecular model of Marcellus shale kerogen: Experimental characterization and structure reconstruction, International Journal of Coal Geology, v. 246, [103833], https://doi.org/10.1016/j.coal.2021.103833. |
Liu, Yiwei, Shimin Liu, and Yong Kang, (2021). Probing Nanomechanical Properties of a Shale with Nanoindentation: Heterogeneity and the Effect of Water–Shale Interactions, Energy Fuels, July 14, 2021, DOI: 10.1021/acs.energyfuels.1c01328. |
Liu, Z. and H. Emami-Meybodi, (2021). A unified approach to the nonlinearity of the diffusivity equation and assessment of pseudotime, SPE Journal, v. 26(1), pp. 241-261, https://doi.org/10.2118/204219-PA. |
Liu, Z. and H. Emami-Meybodi, (2021). Continuum-scale gas transport modeling in organic nanoporous media based on pore-scale density distributions, Proceedings - SPE Annual Technical Conference and Exhibition, v. 2021-September, https://doi.org/10.2118/205886-MS. |
Liu, Z. and H. Emami-Meybodi, (2021). Diffusion-based modeling of gas transport in organic-rich ultratight reservoirs, SPE Journal, v. 26(2), pp. 857-882, https://doi.org/10.2118/201393-PA. |