Dr. Qu Yan has been engaged in polar and deep-sea structural design research for a long time. He has more than 10 years of experience in R&D and design of polar ice and deep sea engineering loads and structures. Participated in the design and research and development of a number of polar ice zones and deepwater offshore platforms. Participating projects include the Chukchi Sea Drilling Platform, the production platform, the Beaufort Sea drilling project in Canada, the Molikpaq anti-ice platform in the Sakhalin waters of Russia, the structural design of the Kalamkas platform in the Caspian Sea, and safety assessment research. Participated in the preparation of the European Union NEST, the European Union STRICE, the International Organization for Standardization ISO-19906/WG8 polar marine engineering structural standards, and its ice load model research results are cited as one of the recommended methods for dynamic ice loading of marine structures. DNV, the Norwegian classification society, also cited this method in the new Arctic marine structure standard. Participate in the safety assessment of the deepwater offshore platform of the 15th, 11th, 12th National 863 Program, the design of the deep-sea floating platform, and the research and organization of the umbilical cable research of the underwater production system. He is currently the project leader of the National Key Research and Development Program "Key Technology Research of New Polar Ice Zone Semi-submersible Drilling Platform". Co-authored a monograph on "Umbilical Cables for Underwater Production Systems - Key Technologies for Design, Manufacturing and Testing". Co-authored the national standard GB-T: the offshore floating structure of the oil and gas industry - a monohull, semi-submersible platform and a deep water column platform, published more than 60 journals and conference papers, cited more than 500 times. Obtained 10 authorized invention patents.
2000/09 - 2006/07 Doctor of Engineering Mechanics, Dalian University of Technology
1996/09 - 2000/07 Dalian University of Technology Bachelor of Engineering Mechanics
2018/08 – Research Associate Professor, Institute of Frontier and Interdisciplinary Sciences, Southern University of Science and Technology
2015/01-2018-08 Technical Development Manager, DMAR Engineering Inc, USA
2013/04-2015/01 Ausenco Engineering Inc, Senior Expert, Arctic and Marine Engineering Structure
2006/07-2013/04 State Key Laboratory of Deepwater Engineering, CNOOC Research Institute, Shenshui Marine Engineering Engineer
2005/05-2005/12 Finnish National Technical Research Center (VTT), visiting researcher.
2003/10-2004/04 Finnish National Technical Research Center (VTT), visiting researcher.
时忠民，屈衍，杜庆贵等. 国家标准 GB-T：石油天然气工业海上浮式结构-单体船，半潜式平台和深吃水立柱式平台（2018 公示）
屈衍，张大勇，许宁，资林钦，中国海冰条件及应用与 ISO19906 冰荷载规定比较，哈尔滨工程大学学报， 2018 (04) pp.27-32
Zhang Dayong, Qu Yan, Yue Qianjin, Xu Ning, Ice resistant Performance Analysis of Jack up
structures, Journal of cold engineering, 2018, 31(1). (20174504370468, EI, IF=0.86)
郭宏、岳前进、高欢、叶信红、屈衍、李阳、李博、卢青针、郭毅、陈凯、黄志明、夏峰、刘太元、郑利军等, 水下生产系统脐带缆设计、制造及测试关键技术, 石油工业出版社, 2016 （专著）
Xu Ning， Yue Qianjin， Zhang Dayong， Qu Yan， Yuan Shuai， Comparison and cause analysis of ice-induced structural， vibrations on different ice-breaking cones， International Journal of Offshore and Polar Engineering， 2015， 25（3）： 205-211. (WOS: 000361163000006, SCI, IF=0.341)
Qu, Yan, (2014). An Ice Failure Explanation of Dynamic Ice Loading Events of Molikpaq, The 11th International Conference and Exhibition on Ships and Structures in Ice, Banff, Canada, ICETECH-2014,July 28-31, 2014.
Qu, Yan, (2013). A new method for the analysis for ice intermittent crushing induced lock-in vibration, The 23rd International Ocean and Polar Engineering Conference, Anchorage Convention Centre, Alaska, U.S.A., June 30 – July, 2013.
Qu, Yan, Zhongmin Shi, (2012). Full Scale Measurement of LH11-1 FPS hull and mooring system, Deep offshore Technology Perth 2012, November 27-29, 2012, Perth.
Qu, Yan, Zhongmin Shi and Xiao Yue, (2011). Mooring Line Broken Analysis of Floating Structures In Extreme Sea Condition, The 15th Offshore engineering conference of China, July 2011, Taiyuan, Shanxi.
Qu, Yan, Ji shunying and Zhongmin Shi, (2011). Full-scale monitoring of the deepwater floating structures, The 15th Offshore engineering conference of China, July, 2011, Taiyuan, Shanxi
Qu, Yan and Guo Hong, (2011). Capacity curve analysis of the subsea umbilical, Chinese Petroleum society conference 2011.
Qu, Yan, Song Zhijun, Tengbin, (2011). Dynamic Response of SPAR in Internal Solitary Waves Proceedings of the ASME 2011 30th International Conference on Ocean, Offshore and Arctic Engineering, OMAE2011-49413, June 19-24, 2011, Rotterdam, The Netherlands.
Qu Yan, Yue Qianjin, Bi Xiangjun, Kärnä Tuomo, (2006). A random ice force model for narrow conical structures, Cold Regions Science and Technology, Volume 45, Issue 3, September 2006, Pages 148-157.
Zhongmin, Shi, Qu, Y., (2007), A New Ice Resist Oil Platform in Bohai Bay, POAC 2007, Dalian, China.
Qianjin Yue, Qu, Y., Xiangjun Bi, and Kärnä Tuomo, (2007), Ice force spectrum on narrow conical structures, Cold Regions Science and Technology, Volume 49, Issue 2, August 2007, Pages 161-169.
T Kärnä, Qu, Y and Qianjin Yue, (2006). An Extreme Value Analysis of Local Ice Pressures, Proc. Int. Conf. Exhibition on Performance of Ships and Structures in Ice. ICETECH-06. July 16-19. Banff, Alberta, Canada.
T Kärnä, Qu, Y and Yue, Q.J. (2006). Extended Baltic model of global ice forces. Proc.18th
International Symposium on Ice. Int. Ass. Hydr. Eng. Res. Sapporo, Japan, August 28-31, 2006.
T Kärnä, Qu, Y. and Yue, Q.J. (2006). Baltic model of global ice forces on vertical structures. Proc.18th International Symposium on Ice. Int. Ass. Hydr. Eng. Res. Sapporo, Japan, August 28-31, 2006.
Kärnä, T., Qu, Y., Kühnlein, W, Yue, Q and Bi, X., (2005). A Spectral Model of Ice Forces due to Ice Crushing. Journal of Offshore Mechanics & Arctic Engineering, May 2007, Vol. 129, pp138-145.
Yue Qianjin, Qu Yan, Bi Xiangjun and Tuomo Kärnä, (2005). Ice load spectrum on narrow conical structures. Proc. 18th International Conference on Port and Ocean Engineering under Arctic Conditions. Clarkson University, Potsdam, NY, USA. June 26-30, 2005. Vol. 3.
T. Kärnä and Qu, Y., (2005), Pressure – area relationships based on field data. Proc. 18th International Conference on Port and Ocean Engineering under Arctic Conditions. Clarkson University, Potsdam,NY, USA. June 26-30, 2005. Vol. 3.