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Wei, J., Zhou, X., Zhou, J., Li, J., & Wang, A. (2020). Experimental and simulation investigations of carbon storage associated with co2 eor in low-permeability reservoir. International Journal of Greenhouse Gas Control, 104(11), 103203.Search in Google Scholar
Zhang, L., Zhang, J., Wang, Y., Yang, R., Zhang, Y., & Gu, J., et al. (2018). Experimental investigation of low salinity water flooding in a low-permeability oil reservoir. Energy & Fuels, 32(3), 3108-3118.Search in Google Scholar
Ma, B., Yang, S., Zhang, H., Kong, Q., Song, C., & Wang, Y., et al. (2018). Diagenetic facies quantitative evaluation of low-permeability sandstone: a case study on chang 82 reservoirs in the zhenbei area, ordos basin. Energy Exploration & Exploitation, 36(3), 414-432.Search in Google Scholar
Dong, P., Puerto, M., Jian, G., Ma, K., Mateen, K., & Ren, G., et al. (2018). Low-ift foaming system for enhanced oil recovery in highly heterogeneous/fractured oil-wet carbonate reservoirs. SPE Journal(06).Search in Google Scholar
Kumar, R., He, J., Bataweel, M., & Nasr-El-Din, H. A. (2017). New insights on the effect of oil saturation on the optimal acid-injection rate in carbonate acidizing. SPE Journal.Search in Google Scholar
Zekri, A., Zekri, H. B., Gannam, M., Lwisa, E. G., & Alusta, G. (2018). Possible application of enhanced oil recovery technology in low permeability carbonate reservoir. Journal of Engineering Research, 7(7), 274-281.Search in Google Scholar
Ping, X., Hailong, L., Haixia, H., & Guan, W. (2018). A new way to calculate flow pressure for low permeability oil well with partially penetrating fracture. Mathematical Problems in Engineering, 2018(PT.6), 1-10.Search in Google Scholar
Youjun, J., Vafai, K., Xu, H., & Jianjun, L. (2020). Analysis of the channeling of water injection in low permeability reservoirs with interlayer considering the seepage–stress coupling. International Journal of Numerical Methods for Heat and Fluid Flow, ahead-of-print(ahead-of-print).Search in Google Scholar
A, E. L., A, Z. F., A, Y. H., A, L. Z., B, H. Z., & A, J. W., et al. (2019). A dual-porosity dual-permeability model for acid gas injection process evaluation in hydrogen-carbonate reservoirs - sciencedirect. International Journal of Hydrogen Energy, 44( 46), 25169-25179.Search in Google Scholar
Jincheng, M., Dingli, W., Xiaojiang, Y., Zhaoyang, Z., Bo, Y., & Chong, Z. (2018). Adsorption of surfactant on stratum rocks: exploration of low adsorption surfactants for reservoir stimulation. Journal of the Taiwan Institute of Chemical Engineers, 95, S1876107018304656-.Search in Google Scholar
Yin, J., Wei, X., & Hu, F. (2023). Halotolerant bacillus velezensis sustainably enhanced oil recovery of low permeability oil reservoirs by producing biosurfactant and modulating the oil microbiome. Chemical engineering journal.Search in Google Scholar
Nowrouzi, I., Manshad, A. K., & Mohammadi, A. H. (2020). The mutual effects of injected fluid and rock during imbibition in the process of low and high salinity carbonated water injection into carbonate oil reservoirs. Journal of Molecular Liquids, 305, 112432.Search in Google Scholar
Zhao, F., Zhang, H., Wu, Y., Wang, D., & Zhang, Y. (2020). Preparation and performance evaluation of polymeric microspheres used for profile control of low-permeability reservoirs. Journal of Chemistry, 2020(1), 1-11.Search in Google Scholar
Li, X., Yang, Z., Li, S., Huang, W., Zhan, J., & Lin, W. (2021). Reservoir characteristics and effective development technology in typical low-permeability to ultralow-permeability reservoirs of china national petroleum corporation:. Energy Exploration & Exploitation, 39(5), 1713-1726.Search in Google Scholar
Zheng, X., Lin, X., Yan, Y., Wen, Y., & Lai, N. (2019). Effect of reservoir salinity between bioacid and carbonate rock based on biometabolic analysis. Energy & Fuels, 33(9).Search in Google Scholar
B, Y. L. A., A, H. L., B, S. C., B, E. M., & B, K. W. (2019). The second critical capillary number for chemical flooding in low permeability reservoirs: experimental and numerical investigations. Chemical Engineering Science, 196, 202-213.Search in Google Scholar
Ma, Z., Zhang, K., Zhao, M., Liu, L., Zhong, C., & Wang, J. (2021). Development and application of efficient oil displacement system for middle-low permeability and high pour-point heavy oil reservoirs. Complexity.Search in Google Scholar
Liu, B., Yang, L., Liu, Y., Lei, Z., & Yu, Q. (2020). Main factors for the development of ultra-low permeability reservoirs. Journal of Coastal Research, 104(sp1).Search in Google Scholar
Mpelwa, M., & Tang, S. F. (2019). State of the art of synthetic threshold scale inhibitors for mineral scaling in the petroleum industry: a review. Petroleum Science.Search in Google Scholar
Shajari, M., & Rashidi, F. (2020). A new coupled model for permeability-impairment prediction because of mineral scale deposition in water-injection wells. SPE Reservoir Evaluation & Engineering, 24(2).Search in Google Scholar
