https://orcid.org/0000-0003-1313-6014
References
- Bender, S., and S. Akin. 2017. Sequestration: Case study. Journal of Petroleum Science and Engineering 157:1033–45. doi:10.1016/j.petrol.2017.07.044.
- Caineng, Z. O. U., T. A. O. Shizhen, H. O. U. Lianhua, et al. 2011. Unconventional hydrocarbon geology[m]. Beijing: Geological Publishing House.
- Chengzao, J. I. A., Z. O. U. Caineng, L. I. Jianzhong, D. H. Li and Min Zheng 2012. Assessment criteria, main types, basic features and resource prosepects of the tight oil China. Acta Petrolei Sinica 33 (3):343–50.
- Chuanmou, Y. U., and C. H. E. N. Yinyang. 2013. Experimental research on natural gas flooding in abnormal high pressure reservoir in Wenliu block. Journal of Southwest Petroleum University: Science & Technology Edition 35 (2):135–40.
- Fajian, N. I. E. 2017. Application and research on EOR by gas injection in volatile reservoir-A case study of Wen88 Block,Zhongyuan Oil⁃field. Petroleum Geology and Engineering 31 (1):111–14.
- Gaofeng, W. A. N. G., L. E. I. Youzhong, T. A. N. Junling, et al. 2020. Design of injection-production ratio and gas injection rate of gas flooding in low-permeability reservoirs. Petroleum Geology and Recovery Efficiency 27 (1):134–39.
- Haiqiao, W. A. N. 2013. Evaluation on implementation effect of deep heavy oil and gas stimulation technology. Natural Gas and Oil 31 (6):63–65.
- Hao, Z. H. E. N. G., M. A. Chunhua, S. Kaoping, et al. 2008. Effect of injected gas and injected gas pressure on displacement characteristics in particularly low permeability oil reservoir. Petroleum Geology & Oilfield Development in Daqing 27 (2):110–12.
- Jishun, Q. I. N., H. A. N. Haishui, and L. I. U. Xiaolei. 2015. Application and enlightenment of carbon dioxide flooding in the United States of America. Petroleum Exploration and Development 42 (2):209–16. doi:10.1016/S1876-3804(15)30010-0.
- Langtao, Z. H. U., L. I. A. O. Xinwei, C. H. E. N. Zhiming, et al. 2017. Well test model of CO2 miscible flooding in the low- permeability reservoirs withstress sensitivity. Petroleum Geology and Recovery Efficiency 24 (4):88–93.
- Maolei, C. U. I., W. A. N. G. Rui, L. Ü. Chengyuan, et al. 2020. Microscopic oil displacement mechanism of nature gas flooding in high-pressure and low-permeability reservoirs. Petroleum Geology and Recovery Efficiency 27 (1):62–68.
- Myers, R. H., D. C. Montgomery, and C. M. Andersoncook. 2016. Response surface methodology: Process and product optimization using designed experiments[m]. New York: Wiley.
- N, Y. B., Y. Agbor, P. U. H. 2018. Ethane flooding as an alternative to CO2 injection in tight formations: A Bakken case study[c]. URTEC 2897170-MS.
- Ping, Y. 2011. Experimental study on reservoir characteristics and seepage law of ultra-low permeability reservoirs in Changqing[D]. Beijing Graduate School, Chinese Academy of Sciences, 1–8.
- Ramachandran, K. P., O. N. Gyani, S. Sur Immiscible hydrocarbon WAG: Laboratory to field[c]. SPE Oil and Gas India Conference and Exhibition, Mumbai, India, January 20-22, 2010.
- Renyi, C. A. O., Y. A. N. G. Songlin, C. H. E. N. G. Linsong and Yunyun, W. 2022. A prediction model of well productivity for dissolved gas driving in tight oil reservoirs. Journal of China University of Petroleum(edition of Natural Science) 46 (5):106–14.
- Sidong, F. A. N. G., Z. H. A. N. Jianfei, H. U. A. N. G. Shijun, et al. 2015. A computational method for productivity of arbitrary angular fractured horizontal well in tight oil reservoirs. Petroleum Geology and Recovery Efficiency 22 (3):84–89.
- Sun Jing. 2016. Research of the influence factors of the development effect of gas drive in low-permeability and high-pressure deep reservoir. Inner Mongolia Petrochemical Industry, 6(1): 12–14.
- Wang, L. I. N., F. A. N. Hongfu, W. A. N. G. Zhiping, et al. 2018. Prediction on production of volume fractured horizontal well in tight reservoirs. Petroleum Geology and Recovery Efficiency 25 (6):107–13.
- Wei, H. U., L. Ü. Chengyuan, W. A. N. G. Rui, et al. 2017. Mechanism of CO2 immiscible flooding and distribution of remaining oil in water drive oil reservoir. Petroleum Geology and Recovery Efficiency 24 (5):99–105.
- Wenrui, H. U., Y. Wei, and B. A. O. Jingwei. 2018. Development theory and technology of low permeability reservoirs in China. Petroleum Exploration and Development 45 (4):646–56. doi:10.1016/S1876-3804(18)30072-7.
- Xiaohan, D. E. N. G., C. H. E. N. Tian, Z. H. A. O. Jia, et al. 2021. Simulation and prediction of gas injection strategy for the bakken formation in Southeast Saskatchewan. Journal of Southwest Petroleum University (Science & Technology Edition) 43 (5):104–12.
- Xinmin, S. O. N. G., Q. U. Debin, and Z. O. U. Cunyou. 2021. Low cost development strategy for oilfields in China under low oil prices. Petroleum Exploration & Development 48 (4):869–78. doi:10.1016/S1876-3804(21)60085-X.
- Yang, L. I., and Y. A. N. G. Yong. 2019. Exploration and practice of green low-cost development in old oilfields. Petroleum Geology and Recovery Efficiency 26 (2):1–6.
- Yanyu, Z. H. A. N. G., C. H. E. N. Gang, H. E. Luping, et al. 2007. A study on long-core experiment of natural gas driving. Journal of Experimental Mechanics 22 (2):161–65.
- Yefei, W. A. N. G., G. A. O. Miao, T. A. N. Long, et al. 2018. Experimental investigation of miscible CO2 injection for enhanced oil recovery in fracture-matrix model. Petroleum Geology and Recovery Efficiency 25 (5):87–92.
- Yongwei, G. U. O., Y. A. N. G. Shenglai, L. I. Liangchuan, et al. 2009. Experiment on physical modeling of displacement oil with natural gas for long core. Fault-Block Oil & Gas Field 16(6): 76–78.
- Zegui, H. U. A. N. G. 2005. Feasible research of EOR by gas injection in Wen⁃nan oilfield [D]. Nanchong: Southwest Petroleum University.