Associate Professor

23.MAY

Qingjun Yang

Yang Qingjun, doctor, associate professor, master's supervisorE-mail：Qingjun.Yang@cupk.edu.cnTEL：15711375950Educational experience:1991.9-1995.7 China University of Petroleum (East China) Petroleum Engineering (oil reservoir) Undergraduate1997.9-2000.7 Master of Oil and Gas Field Development Engineering, China University of Geosciences (Wuhan)2001.9-2005.7 Doctor of Oil and Gas Field Development Engineering, China University of Geosciences (Wuhan)Work experience:Since May 2023, Associate Professor, School of Petroleum, Karamay Campus, University of Petroleum (Beijing)From October 2022 to now, Adjunct Research Fellow, School of Science and Engineering, Curtin University, AustraliaFrom 2020 to May 2023, oil and gas field development consulting, successively served Shell Australia, Sanjiland (Beijing) Technology Co., Ltd., as project representative and technical director respectively.From 2008 to 2020, Chevron Australia, Lead Reservoir Engineer, has been responsible for the Gorgon CO2 storage project (currently the world has The injection design of the largest carbon storage project in operation and the development plan and reservoir management of 12 gas fields and 4 oil fields on the northwest continental shelf of Australia.2005-2008, Research Fellow, Petroleum Institute, University of Adelaide, AustraliaFrom 1995 to 2008, he was an associate professor in the Department of Petroleum, School of Resources, China University of Geosciences (Wuhan)Research direction:Artificial intelligence, data mining and oil and gas reservoir evaluationIntegrated reservoir characterization and reservoir numerical simulationCarbon dioxide geological storage and hydrogen energy underground storageIntegration of unconventional oil and gas reservoir development and geological engineeringPaper:Qingjun Yang, “Dynamic Modelling CO2 Injection in a Closed Saline Aquifer in the Browse Basin, Western Australia”, Paper SPE115236, October 2008, Perth, Australia QingJun Yang, S Zhang and Q fei. “Integrating Neural Network and Numerical Simulation for Production Performance Prediction of Low Permeability Reservoir”, Journal of Petroleum Science and Technology, May 2005Qingjun Yang, “Short-Term Numerical Simulation of Geological Sequestration of CO2 in the Barrow Sub-Basin, West Australia”, Paper SPE95354, September 2005, Kuala Lumpur, Malaysia

23.MAY

Hongtao Zhou

Zhou Hongtao, doctor, associate professor.Email: zhouht@cupk.edu.cnPhone/WeChat: 15953276901Educational experienceFrom 1987 to 1991, Bachelor's degree in Chemical Engineering, China University of Petroleum (East China)From 1995 to 1998, Master's degree in the School of Petroleum Engineering, China University of Petroleum (East China)2001-2007 Doctoral degree in the State Key Laboratory of Molecular Reaction Dynamics, Institute of Chemistry, Chinese Academy of SciencesDoctoral student at Shandong University from 2011 to 2015Work experience1991.07-2022.10 Assistant Professor, Lecturer and Associate Professor, School of Petroleum Engineering, China University of Petroleum (East China)2022.11- Now China University of Petroleum (Beijing) Karamay Campus Petroleum Institute Karamay City "High-level and Urgently Needed Talents" (Data Science and Big Data Technology)Lecture courseSoftware Process and Management, Software Engineering, Software Architecture and Design, Principle of Improving Relieability (Undergraduate, Postgraduate, Chinese, All English), Oilfield Chemistry (Chinese, All English), Oil Production Agents, Physical Chemistry and Oil Production Chemistry, Oil and Gas Field Environmental ProtectionResearch direction1. Digital Oilfield Engineering and Digital Oilfield Twin 2. Deep Learning and Artificial Intelligence 3. Oil and Gas Production Engineering 4. Renewable Energy Engineering 5. Enhanced Oil and Gas Recovery6. Numerical Simulation on Oil and Gas Production 7. Integrated Simulation of Geomechanics and Reservoir Engineering 8. CCUS, CCS-EOR 9. Flow Assurance in Oil and Gas Production Paper:[1] Hongtao Zhou, Xiaotong Wu, Zongxiao Song, Boxuan Zheng, Kai Zhang. A review on mechanism and adaptive materials of temporary plugging agent for chemical diverting fracturing. Journal of Petroleum Science and Engineering. 2022年2月, 110256. 收录情况（SCI, 荷兰, 三区, 影响因子5.168（2021））[2]Hongtao Zhou, Yipu Liang, Pan Huang, Tuo Liang, Hongyan Wu, Peng Lian, Xu Leng, Cunqi Jia, Yanguang Zhu, Han Jia. Systematic investigation of ionic liquid-type gemini surfactants and their abnormal salt effects on the interfacial tension of a water/model oil system. Journal of Molecular Liquids, 2018年1月, 249, 33-39. 收录情况（SCI, 荷兰, 二区, 影响因子4.561（2018））[3] Zhou Hongtao, Song Zongxiao, Qiu Xiaohui, Zhang Jingchun, Ma Shu, Zheng Boxuan, Wu Xiaotong. Progress in the research and application of high viscosity resistance reducers. Oil Drilling Process, May 2022, 44(03):341-347. Inclusion (core)[4] Wang Xiyou, Gao Haohong, Zhang Yuliang, Tan Dujuan, Zhou Hongtao*, Qin Yu. Anti-corrosion and anti-scaling process of Permian coalbed gas wells in southern Sichuan. Oil drilling process, September 2020, 42(05):662-667. Inclusion (core)[5] Zhang Yuliang, Luo Kai, Liu Yuan, Wang Tiange, Zhou Hongtao*. The influence of surfactants in shale fracturing solution on the formulation of the treatment agent. Oil drilling process, April 2020, 42(03):340-345. Inclusion (core)[6] Gong Jun, Ye Junhong, Qin Yonghui, Li Yong, An Jibin, Zhou Hongtao*. Comprehensive shear performance evaluation of gel profiler filter sand pipe and sand filling tube in Congdao Oilfield. Oil drilling process, September 2019, 41(05):657-662. Inclusion (core)[7] Zhou Hongtao, Luo Hai, Lv Fengzhang, An Jibin, Huo Tong, Ma Yongwei. New microbial polysaccharide properties suitable for harsh reservoir polymer flooding. Oil drilling process, May 2019, 41(03):393-398. Inclusion (core)[8] Guo Hongliang, Zhang Liping, An Jibin, Zheng Jiapeng, Zhou Hongtao*. The contribution of interface tension and emulsification effect to improving the recovery rate. Petrochemical, April 2019, 48(04):381-385. Inclusion (core)

23.MAY

Zhiyang Jia

Jia Zhiyangassociate professor, master's supervisorE-mail：jiazhiyang@cupk.edu.cnTEL：0990-6633551Educational background:From September 1999 to July 2003, Bachelor of Engineering, School of Mechanical and Power Engineering, Harbin University of Technology.From September 2006 to July 2009, the School of Computer Science and Information Technology of Yunnan Normal University, majoring in computer software and theory, master of science degree.Work experience:From July 2003 to April 2004, Harbin Welding Research Institute, Mechanical Science Research Institute, Technician.From May 2004 to April 2006, Harbin University of Technology Bafu High-tech Co., Ltd., technician.August 2009-July 2018, Professor, School of Tourism and Culture, Yunnan University.From August 2018 to the present, associate professor and master's supervisor of the Computer Department of the School of Petroleum, Karamay Campus of China University of Petroleum (Beijing).Research direction:Intelligent information processing; machine learning; edge computing; industrial Internet of Things.Lecture course:Discrete mathematics, operating system principles, software quality assurance and testing. NET architecture technology development, software project training, software development practice, software project trainingAcademic part-time:Senior member of the Chinese Computer SocietyExecutive Member of the Computer Application Professional Committee of the Chinese Computer SocietyMember of Xinjiang University Computer Education SocietyReview experts of ACM Transactions on the Web and other journalsPaper:1. Jia, Zhiyang, Xiao Zhibo, Shi Yijin. Remaining Useful Life Prediction of Equipment Based on XGBoost, International Conference on Computer Science and Application Engineering, ACM International Conference Proceedings Series, 2021.2. Wei Yiwei, Wu Chunlei, Jia ZhiYang, et al. Past is important: Improved image captioning by looking back in time, SIGNAL PROCESSING-IMAGE COMMUNICATION, vol. 94, 2021.3. Xu Chen, Chuancai Liu, Yue Zhao, Zhiyang Jia, Ge Jin. Improving adversarial robustness of Bayesian neural networks via multi-task adversarial training. Information Sciences, Volume 592, 2022.4. Zhiyang Jia, Jihe Wang, Cheng Deng. IIoT-based Predictive Maintenance for Oil and Gas Industry, International Conference on Electronic Information Technology and Computer Engineering, 2022.5. Zhiyang Jia, Yiyin Shi, Yuan Jia, Ding Li. A framework of knowledge management systems for tourism crisis management, Procedia Engineering, Elsevier, vol. 29, 138-143,2012.6. Zhiyang Jia, Weiwei Li, Wei Gao, Youming Xia. Research on web spam detection based on support vector machine, International Conference on Communication Systems and Network Technologies, 517-520, IEEE, 2012.7.Zhiyang Jia, Wei Gao, Xiangguang He. Generalization Bounds for Ranking Algorithm via Query-Level Stabilities Analysis, CCIS, Springer, vol 236, 197-203, 2011.8. Xiangguang He, Wei Gao, Zhiyang Jia. Generalization Bounds of Ranking via Query-Level Stability, CCIS, Springer, vol 236, 188-196, 2011.9. Ke Luo, Zhiyang Jia, Wei Gao. Strong and weak stability of randomized learning algorithms, IEEE 14th International Conference on Communication Technology, 887-891, 2012.10. Zhiyang Jia, Yuting Yang, Wei Gao, Xu Chen. User-based collaborative filtering for tourist attraction recommendations. IEEE International Conference on Computational Intelligence & Communication Technology, 22-25, 2015.11. Zhi Yang Jia, Wei Gao, Yi Jin Shi. An Agent Framework of Tourism Recommender System, MATEC Web of Conferences, 44, 2016.12. Zhiyang Jia, Ding Li, Fengzhen He. Analysis and Reviews on Tourism and Travel Mobile Apps of China, Advances in Computer Science Research, vol. 45, 62-66, 2016.13. Zhiyang Jia, Ding Li, Wei Gao. Evaluation of Chinese Online Tourism and Travel Service Providers from the Users' Perspective, Advances in Intelligent Systems Research, vol. 125, 119-124, 2015.14. Zhiyang Jia, Ding Li. An Application of Knowledge Management System for Tourism Regions. IEEE International Conference on Computational Intelligence and Communication Networks (CICN), 2016.

Xie Weibiao, doctoral student, senior engineer.E-mail:xiewb@cupk.edu.cn/15932597520Educational experience:Bachelor of Science, Changjiang University from 2005 to 2009Master of Engineering, Changjiang University from 2009 to 20122018 to 2022 Doctor of Science, China University of Petroleum (Beijing)Work experience:From 2012 to 2022 PetroChina Jidong Oilfield Exploration and Development Research Institute Logging Geological Evaluation Senior EngineerFrom 2022 to the present, full-time geology teacher and senior engineer at Karamay Campus of China University of Petroleum (Beijing)Lecture course:Geophysical Logging Method, Geophysical Logging, Logging Interpretation and Digital Processing, Geological Interpretation of Logging Data, Loggeology, Loggeology, C Language ProgrammingResearch direction:Research on the principle of geophysical logging and reservoir evaluation methods, research on rock physics and geological evaluation methods of loggingPaper:1. Xie, W.; Yin, Q.; Zeng, J.; Yang, F.; Zhang, P.; Yan, B. An Improved Rock Resistivity Model Based on Multi-Fractal Characterization Method for Sandstone Micro-Pore Structure Using Capillary Pressure. Fractal Fract. 2024, 8, 118. （SCI,IF3.3）2. Xie, W., Yin, Q., Wu, L., Yang, F., Zhao, J., & Wang, G. (2024). A new nuclear magnetic resonance-based permeability model based on two pore structure characterization methods for complex pore structure rocks: Permeability assessment in Nanpu Sag, China. Geophysics, 89(1), MR43-MR51. (SCI,IF5.4)3. Xie, W.; Yin, Q.; Zeng, J.; Wang, G.; Feng, C.; Zhang, P. Fractal-Based Approaches to Pore Structure Investigation and Water Saturation Prediction from NMR Measurements: A Case Study of the Gas-Bearing Tight Sandstone Reservoir in Nanpu Sag. Fractal Fract. 2023, 7, 273.（SCI,IF3.3）4. Zhao, J.; Ke, S.; Xie, W.; Zhang, Z.; Wei, B.; Wan, J.; Cheng, D.; Li, Z.; Fang, C. Research on the Shale Porosity–TOC Maturity Relationship Based on an Improved Pore Space Characterization Method. Energies 2024, 17, 997. (SCI,IF3.2)5. Weibiao Xie, Qiuli Yin, Guiwen Wang, Zhiyong Yu.(2021).Variable Dimension Fractal-Based Conversion Method between the Nuclear Magnetic Resonance T2 Spectrum and Capillary Pressure Curve. Energy&Fuels. 2021.35,351-357.( SCI, IF:3.6)6. Weibiao Xie，Qiuli Yin et al.(2020). Estimating the Relative Permeability from the Electrical Parameters of Sandstone with a Complex Pore Structure. Energy&Fuels. 2020, 34,14124-14131. (SCI, IF:3.6)7. Yin, Q., Xie, W., Wang, G., & Liu, D. (2023). Logging evaluation of petrophysical facies based reservoir quality prediction method for the volcanic rocks in the deep depth of Nanpu Sag, China. Petroleum Science and Technology, 1-22.（SCI,IF:1.695）8. Weibiao Xie, Qiuli Yin, Guiwen Wang, Wei Guan. (2021). Modeling and evaluation method of gas saturation based on P-wave and pore structure classification in low porosity and low permeability reservoir. Arabian Journal of Geosciences, 2021,14:9179. Weibiao Xie, Si, Z., Xu, F., Lin, F., & Tian, C. (2022). A Method for Reservoir Effectiveness Evaluations of Altered Igneous Reservoirs based on Logging data: A Case Study of the Nanpu Structure in Eastern China. Arabian Journal of Geosciences, 15(3), 1-12.10. Weibiao Xie, Qiuli Yin, Guiwen Wang.(2022). The effect of pore structure on the electrical properties of sand-based porous media. Arabian Journal of Geosciences, 2022, 15:36Patent:1. 2018.01: Acquisition method and device of mud sandstone permeability, invention patent (ZL201410425925.0), ranked 1st;2. 2019.11: Gas saturation determination method and device, invention patent (ZL201611263196.9), ranked No. 1;3. 2021.03: Determination method, device and computer equipment of fluid saturation parameters, invention patent (CN113175321B), ranking 1st;4. 2023: Reservoir gas saturation prediction method and device, invention patent (CN116482154A), ranking 1;5. 2023: A functional description method of rock resistivity, invention patent (CN116449102A), ranking 1;6. 2023: Reservoir permeability treatment methods, devices, equipment and readable storage media, invention patent (CN116046632A), ranking 1;7. 2021.04. Bound water saturation parameter determination method, device, equipment and storage media, invention patent (CN113153284B), ranking 2nd;8. 2021.7 Determination method, device and computer equipment of bound water saturation parameters, invention patent (CN113586043B), ranking No. 1;9. 2022.1 Reservoir water yield calculation method, device, electronic equipment and storage medium, invention patent (CN116699100A), ranked 3rd;10. 2022.11 A low oil saturation oil layer identification method, device and equipment, invention patent (CN113031064B), ranking 4th;11. 2021.7. A patent for well-controlled self-coding lithological identification method in igneous development area, invention patent (ZL201810724558.2), ranked 7th;12. 2017.02: A patent for a method to determine reservoir permeability, invention patent (ZL201310129359.4), ranked 17th;13. 2023. Electromagnetic field calculation method, device and equipment based on physical constraint neural network, invention patent (application number 2023112778889), ranked 4th;14. 2016.07: LEAD-GETCOR reservoir quality classification evaluation software, computer software copyright of the National Copyright Administration; ranked third.