Personal Information
Name: Fei GONG
Title: Associate Professor
Email:cupgongfei@163.com
Research Interests
(1) Rock physics, earthquake physics simulation.
(2) Earthquake Forward and Backward Running.
(3) Unconventional oil and gas reservoir prediction(Coalbed methane, shale gas, tight sandstone gas, carbonate reservoirs).
Education/Work Background
2017-2018 Graduate Student at the Geophysical, Institute, Czechosl. Acad. Sci. (Geophysics);
2019 China University of Petroleum,Beijing, specialisation: Geological Resources and Geological Engineering, degree PhD;
2019-2021 Postdoctoral research at Geology Mobile Station of China University of Petroleum, Beijing;
2021-Now, China University of Mining and Technology, Beijing, Associate Professor.
Teaching Courses
Seismic Data Processing and Interpretation
Petrology
Key Research Funding
[1]. Fei Gong. Research on the elastic properties of shale clay minerals and seismic petrophysical modeling. National Natural Science Foundation of China (No. 442104107), 2022-2024, Chairperson
[2]. Fei Gong. Estimation method of clay mineral elasticity parameters based on petrophysical testing. Post-doctoral Fund (No. 2020M670579), 2020-2021, Chairperson
[3]. Fei Gong. Petrophysical Characterization of Coal Bed Methane Reservoir Coalstone - A Case Study of Main Mining Coal Seam in Qinshui Basin. National Key Laboratory of Fine Exploration and Intelligent Development of Coal (No. SKLCRSM22ZZ01), 2023-2024, Chairperson
Honors
2023, I won the First-class prize of Excellent Achievement Award for Scientific Research in Colleges and Universities under the Ministry of Education.
2021, I won the Outstanding Doctoral Dissertation Award of the Chinese Geophysical Society.
2022, I won the Outstanding Class Teacher of China University of Mining and Technology, Beijing.
Selected Publications (* denotes Corresponding author)
[1] Gong, F.; Gao, L.L.; Zou, G.G.*; Zhao, Y.; Wang, G.; Cao, S. The effects of clay mineralogy and crack properties on elastic properties of the dry and water saturated TI rocks. Geophysics. 2023, 88(3), 1-56.
[2] Gong, F.; Song, Y.; Zeng, L.*; Zou, G.; The heterogeneity of petrophysical and elastic properties in carbonate rocks controlled by strike-slip fault: A case study from yangjikan outcrop in the tarim basin. Journal of Petroleum Science and Engineering. 2023, 220, 111170.
[3] Gong, F.; Gao, L.L.; Zou, G.G.*; Peng, S.P.; Song, Y.C.; The investigation of multiple factors on elastic anisotropy of artificial shale based on the orthogonal experiment. Petroleum Science. 2023, 20(5), 2773-2783.
[4] Gong, F.; Di, B.*; Zeng, L.; Wei, J.; Cheng, J.; Gao, L.; The elastic properties and anisotropy of artificial compacted clay samples. Geophysics. 2021, 86(1), MR1–MR15.
[5] Gong, F.; Di, B.*; Zeng, L.; Wei, J.; Ding, P.; Static and dynamic linear compressibility of dry artificial and natural shales under confining pressure. Journal of Petroleum Science and Engineering. 2020, 192, 107242.
[6] Gong, F.*; Di, B.; Wei, J.; Ding, P.; Tian, H.; Han, J.; A study of the anisotropic static and dynamic elastic properties of transversely isotropic rocks. Geophysics. 2019, 84(6), C281-C293.
[7] Gong, F.; Di, B.*; Wei, J.; Long, T.; Experimental investigation of mechanical compaction on the physical and elastic properties of synthetic shales. Journal of Applied Geophysics. 2019, 161, 139-152.
[8] Gong, F.; Di, B.*; Wei, J.; Ding, P.; Shuai, D.; Dynamic mechanical properties and anisotropy of synthetic shales with different clay minerals under confining pressure. Geophysical Journal International. 2018, 212, 2003-2015.
[9] Gong, F.*; Di, B.; Wei, J.; Ding, P.; Li, H.; Li, D.; Experimental investigation of the effects of clay content and compaction stress on the elastic properties and anisotropy of dry and saturated synthetic shale. Geophysics. 2018, 83(5), C195-C208.
[10] Gong, F.*; Di, B.; Wei, J.; Ding, P.; Pan, X.; Zu, S.; Ultrasonic velocity and mechanical anisotropy of synthetic shale with different types of clay minerals. Geophysics. 2018, 83(2), MR57–MR66.