Name：Rusheng Wang

Title：Professor, Doctoral Supervisor

Email：wangrs@jlu.edu.cn

Professor Wang has been engaged in research in geological drilling and polar science drilling technology. During his doctoral studies in 2002~2007, he carried out theoretical and experimental research on compressed air jet drilling and reverse circulation continuous sampling technology in the field of geological drilling, and in 2015~2017, he mainly carried out theoretical and experimental research on "Large-diameter Drilling of Polar Deep Ice - Ice Shelf Hot Water Drilling Technology" during his postdoctoral fellowship at Polar Research Institute of China.

He is currently working on the research of cutting-edge scientific problems and detection technologies of polar ice sheets. Based on its own patented technology, it independently designs, develops and builds a "multi-functional test platform for polar electromechanical drilling tools" and a "multi-functional low-temperature ice drilling laboratory for simulating polar extreme environments", which provides strong research conditions and technical support for polar research. He has obtained fruitful academic achievements and published more than 50 high-level academic papers, including more than 30 SCI indexes; He has applied for and authorized more than 120 invention patents, of which more than 20 have been authorized as the first inventor; Published 1 textbook for higher education, won the 3rd prize of provincial excellent textbook, and participated in the compilation and publication of 1 set of geological drilling manuals for the industry; Participated in international and domestic academic conferences and made more than 40 academic reports, and his academic papers were rated as excellent papers at the 18th and 20th National Exploration Engineering Annual Conferences, and presided over the academic reports of the sub-venues as the special convener of the 2016 China Polar Academic Annual Conference; In 2011, he won 1 third prize of provincial teaching achievement and 1 second prize of school-level teaching achievement, and was rated as "advanced worker" of the college in 2014.

 

Research Interests：

1.Geological Engineering

2.Polar Scientific Drilling

3.Glacial and Permafrost Drilling

4.Multi-Process Air Drilling

 

Education：

1. Doctoral Degree in Geological Engineering:

Jilin University, School of Construction Engineering, 2002-2007.

Doctoral Dissertation Title: Theoretical and Experimental Research on Reverse Circulation High-Pressure Gas Jet Drilling Technology.
Advisor: Professor Kun Yin.

2. Master Degree in Geological Engineering:

Jilin University, School of Construction Engineering, 2000- 2002.

Advisor: Professor Kun Yin.

3. Bachelor Degree in Exploration Engineering (Mineral Exploration Engineering):

Changchun University of Science and Technology (Changchun Geological Institute), 1993- 1997.

 

Professional Positions：

1. September 2018-Present: Professor, Department of Exploration Engineering, School of Construction Engineering, Jilin University.

2. August 2015- December 2017: Postdoctoral fellow, Polar Research Institute of China.

3. September 2008- August 2018: Associate professor, Department of Exploration Engineering, School of Construction Engineering, Jilin University.

4. March 2011-March 2012: Visiting Scholar, at the University of Texas as a national government-sponsored visiting scholar
5. August 2002-August 2008: Lecturer, Department of Exploration Engineering, School of Construction Engineering, Jilin University
6. July 1997-July 2002: Assistant professor, Department of Exploration Engineering, Jilin University

 

Publications：

1.Xinyu Lv, Zhihao Cui, Ting Wang, Yumin Wen, An Liu,  Rusheng Wang*. Research into mechanical modeling based on characteristics of the fracture mechanics of ice cutting for scientific drilling in polar regions, The Cryosphere, 18, 3351–3362, 2024.(SCI)

2.Ni Sun, Ting Ye*, Zehong Xia, Zheng Feng, Rusheng Wang*.Gaussian smoothed particle hydrodynamics: A high-order meshfree particle method, Engineering Analysis with Boundary Elements, Volume 168 (2024), 105927.(SCI)

3.Rusheng Wang, Xinyu Lv, Xiaopeng Fan, Da Gong, An Liu*. Key parameters and mechanisms of ice cores autonomously breaking with air reverse-circulation drill systems, Cold Regions Science and Technology 217 (2024) 104053.(SCI)

4.SUN YouHong, PAVEL Talalay, LI YuanSheng, YU HaiBin, WANG DongLiang, LI GuoPing, XU LiPing, GONG Da, WANG JiXin, WANG JianHua, WANG Ting, ZHANG Nan, WANG ZhiGang, CHEN YanJi, LIU YunChen, LI YaZhou, PENG ShiLin, SHI JianGuang, AN ChunLei, GE Qun, XU Jing, NI XiaoKang, CUI QiFeng, JIANG Qiang, MIKHAIL Sysoev, Yang Yang, WANG RuSheng, WEI XianZhe, WANG Yu, ZHU TianXin, DENG ZhiPeng, ALEXEY Markov, LI Bing* & FAN XiaoPeng*. Exploring Antarctic subglacial lakes with RECoverable Autonomous Sonde (RECAS): Design and first field tests, June 2024 Vol.67 No.6: 1866–1878, https://doi.org/10.1007/s11431-023-2620-3.(SCI)

5.An Liu, Pavel G. Talalay, Xiaopeng Fan, Yang Yang, Da Gong, Rusheng Wang*.Theoretical and numerical simulation research about annular nozzle parameters influence on heat transfer in hot-water ice-coring drilling, Case Studies in Thermal Engineering 47 (2023) 103122. （SCI）

6.An Liu, Xiaopeng Fan, Pavel Talalay, Rusheng Wang, Xiao Li*. Hot-water rescue ice drilling system to recover subglacial lake exploring sonde: General concept, Polar Science, 35 (2023) 100919.(SCI)

7.Youhong Sun, Bing Li, Xiaopeng Fan*, Yuansheng Li, Guopin Li, Haibin Yu, Hongzhi Li, Dongliang Wang, Nan Zhang, Da Gong, Rusheng Wang, Yazhou Li, and Pavel G. Talalay*. Brief communication: New sonde to unravel the mystery of polar subglacial lakes, The Cryosphere, 17, 1089–1095, 2023 https://doi.org/10.5194/tc-17-1089-2023.(SCI)

8.Rusheng Wang, Xinyu Lv, An Liu*, Pavel Talalay, Xiaopeng Fan, Xiao Li. Theoretical and experimental research to remove hot water out of drill hose of deep hot-water drilling system. Polar Science, 31 (2022) 100747: 1-8.(SCI)

9.An Liu , Rusheng Wang*, Yang Yang , Liang Wang , Xiao Li , Yazhou Li and Pavel Talalay. Optimization of hot-water ice-coring drills. Annals of Glaciology, 2021, 62(84), 67–74.(SCI)

10.Pavel Talalay, Youhong Sun*, Xiaopeng Fan*, Nan Zhang, Pinlu Cao, Rusheng Wang, Alexey Markov, Xingchen Li, Yang Yang, Mikhail Sysoev, Yongwen Liu, Yunchen Liu, Wei Wu and Da Gong. Antarctic subglacial drilling rig: Part I. General concept and drilling shelter structure, Annals of Glaciology 62(84), 1–11. https://doi.org/ 10.1017/aog.2020.37.(SCI)

11.Pavel Talalay, Xingchen Li, Nan Zhang*, Xiaopeng Fan, Youhong Sun, Pinlu Cao, Rusheng Wang, Yang Yang, Yongwen Liu, Yunchen Liu, Wei Wu, Cheng Yang, Jialin Hong, Da Gong, Han Zhang, Xiao Li, Yunwang Chen, An Liu and Yazhou Li. Antarctic subglacial drilling rig: Part II. Ice and Bedrock Electromechanical Drill (IBED), Annals of Glaciology 62(84), 12–22. https://doi.org/ 10.1017/aog.2020.38.(SCI)

12.Xiaopeng Fan, Pavel Talalay*, Youhong Sun, Xingchen Li, Nan Zhang, Alexey Markov, Yang Yang, Pinlu Cao, Rusheng Wang, Yongwen Liu, Yunchen Liu, Ting Wang, Wei Wu, Cheng Yang, Jialin Hong, Da Gong, Han Zhang, Mikhail Sysoev, Xiao Li, An Liu and Yazhou Li. Antarctic subglacial drilling rig: Part III. Drilling auxiliaries and environmental measures, Annals of Glaciology 62(84), 24–33. https:// doi.org/10.1017/aog.2020.39.(SCI)

13.An Liu, Rusheng Wang*, Xiaopeng Fan, et al. Test-Bed Performance of an Ice-Coring Drill Used with a Hot Water Drilling System. JOURNAL OF MARINE SCIENCE AND ENGINEERING, 2019, 7(7), 234, doi: 10.3390/jmse7070234.(SCI)

14.Gang Liu, Pavel Talalay, Rusheng Wang, et al. Design Parameters of Hot-Water Drilling Systems, WATER, 2019, 2 (11) , DOI: 10.3390/w11020289.(SCI)

15.Rusheng Wang, An Liu, Youhong Sun, Pinlu Cao, Xiaopeng Fan, Pavel Talalay*. Ice drill testing facility, Cold Regions Science and Technology，2018, 1 (145): 151-159.(SCI,EI)

16.Pavel Talalay, Gang Liu, Rusheng Wang, Xiaopeng Fan, et al. Shallow hot-water ice drill: Estimation of drilling parameters and testing, Cold Regions Science and Technology，2018, 11 (155): 11-19.(SCI,EI)

17.Rusheng Wang, Liu An, Pinlu Cao, Baoyi Chen, Mikhail Sysoev, Dayou Fan, Pavel G.Talalay, Rapid ice drilling with continual air transport of cuttings and cores: General concept, Polar Science, 2017, 12 (14): 21-29.(SCI)

18.Baolin Liu, Rusheng Wang*, Pavel Talalay, Qingyan Wang, An Liu, Circulation system of an Antarctic electromechanical bedrock drill, Polar Science, 2016, 12 (10):463-469.(SCI)

19.Pavel Talalay, Cheng Yang, Rusheng Wang, et al. Ice-core drilling problems and solutions, Cold Regions Science and Technology, 2015, 12 (120): 1-20. (SCI,EI)

20.Pinlu Cao, Cheng Yang, Zhichuan Zheng, Rusheng Wang, Nan Zhang, Chunpeng Liu, Zhengyi Hu, Pavel Talalay. Low-load diamond drill bits for subglacial bedrock sampling, Annals of Glaciology 55(68) 2014 doi: 10.3189/2014AoG68A001.(SCI)

21.Pavel TALALAY, Xiaopeng FAN, Zhichuan ZHENG, Jun XUE, Pinlu CAO, Nan ZHANG, Rusheng WANG, Dahui YU, Chengfeng YU, Yunlong ZHANG, Qi ZHANG, Kai SU, Dongdong YANG, Jiewei ZHAN. Anti-torque systems of electromechanical cable-suspended drills and test results, Annals of Glaciology 55(68) 2014 doi: 10.3189/2014AoG68A025.(SCI)

22.Rusheng Wang, Pinlu Cao, et al. Finite element analysis of drilling mechanism on ordinary cone drill bit during impact compaction drilling, American Society of Civil Engineers, ICPTT 2011: Sustainable Solutions for Water, Sewer, Gas, and Oil Pipelines - Proceedings of the International Conference on Pipelines and Trenchless Technology 2011: 2244-2253.(EI)

23.Li Guangxing, Rusheng Wang*, et al. Parameter analysis of composite pile foundation in bridge foundation, Global Geology, 2012, 1(15): 42-47.

24.R. S. Wang, K. Yin, et al. Experimental Research on Reverse Circulation Constant Sampling Air Jetbit Drilling，Proceedings of the International Conference on Geological Engineering 2007 (ICGE-2007), ASME 2009:273-280.(EI)

25.Wang Rusheng, Yin Kun.Experimental Research on Reverse Circulation Constant Sampling Powerful Air Jetbit, Proceeding of the 4th International Conference on Geological Resources Exploration Problems in Russia Far East and Asia- Pacific Area (Part of Jilin University, China), 2006, 9: 25-30.

26.Haoliang Bai, Baochang Liu, Rusheng Wang, Li Peng, Jixiong Cai. Finite Element Analysis and Experimental Study of the Structural Strength of Aluminum Alloy Double-Wall Drill Rods for Polar Drilling. Drilling Engineering, Vol.51, No.1, Jan.2024:75-82.

27.Yongtian Zhang, Chen Chen, Guigang Tu, Rusheng Wang, Yingrui Ma, Xiang Liu. Research on the Hole Inclination Law and Control Device Design in the Antarctic Ice-Rock Interface Drilling Process. Drilling Engineering, Vol.50 Sup. Sep. 2023:98-105.

28.Nan Zhang, Liang Wang, Pavel Talalay, Xiaopeng Fan, Rusheng Wang, Yang Yang, Jialin Hong, Da Gong, Youhong Sun, Yuansheng Li, Bing Li. Research Progress on Key Technologies of Polar Ice Drilling. Exploration Engineering (Geotechnical Drilling Engineering), Vol.47, No.2, Feb. 2020:1-16.

29.Rusheng Wang, An Liu, et al. Design of Thermal Water Core Drilling Tools for Polar Ice Shelves and Pressure Loss Calculation. Proceedings of the 20th Academic Exchange Conference on Exploration Engineering Technology (Geological Publishing House), 2019,9:309-317.

30.Baoyi Chen, Dayou Fan, Rusheng Wang*, et al. Structural Design of Air Reverse Circulation Continuous Core Drilling Tools for Ice Layers and Numerical Simulation of Ice Core Jamming. Exploration Engineering (Geotechnical Drilling Engineering), 2018,9(45):46-50.

31.Rusheng Wang, An Liu, et al. Experimental Study and Application of the Hot Water Draining System for Antarctic Ice Shelf Drilling. Proceedings of the 19th National Academic Exchange Conference on Exploration Engineering (Geotechnical Drilling Engineering), Exploration Engineering (Geotechnical Drilling Engineering), 2017,8(44):226-230.

32.Youhong Sun, Bing Li, Xiaopeng Fan, Rusheng Wang, Pavel Talalay. Research Progress on Drilling and Sampling Techniques for Subglacial Lakes in Antarctica. Exploration Engineering (Geotechnical Drilling Engineering), 2017, Vol. 44, Supplement.

33.Chen Chen, Youhong Sun, Baoyi Chen, Peihua Xu, Rusheng Wang, Linlin Zou. Collaborative Innovation of High-Quality Teaching Resources to Construct a Practical Teaching Training System for Geological Engineering. China University Teaching, 2016, No.9.

34.Rusheng Wang, Dalalai, et al. Research Progress and Challenges of International Hot Water Drilling in Ice Sheets. Proceedings of the 18th Academic Exchange Conference on Exploration Engineering Technology (Geological Publishing House), 2015,8:767-772.

35.Bowen Liu, Dalalai, Rusheng Wang*, et al. Analysis and Calculation of the Melting Drilling Principle for Hot Water Drilling in Polar Regions. Proceedings of the 18th Academic Exchange Conference on Exploration Engineering Technology (Geological Publishing House), 2015,8:785-789.

36.Gui Yu, Rusheng Wang*, et al. Exploration of Construction Technology for Deep Foundation Pit Water Stopping Curtains. Western Science and Technology of China, 2015,4(14):27-29.

37.Nini Wang, Rusheng Wang*. Study on Segregation and Prevention Measures in Asphalt Pavement Construction. Military-Civilian Dual-Use Technology and Products, 2015,7(340):161.

38.Yongguang Zhang, Kun Yin, Rusheng Wang*, et al. Mechanism of Compressed Gas Jet Cutting and Soil Breaking. Journal of Jilin University (Earth Science Edition), 2011,2(41):518-522.

39.Rusheng Wang, Jianming Peng, Kun Yin, et al. Preliminary Study on the Application of Ground Tracking Navigation System in KCM-130Ⅱ Controlled Impact Spear. Exploration Engineering; Exploration Engineering (Geotechnical Drilling Engineering), 2009,10(36):338-341.

40.Qilei Yin, Rusheng Wang*, et al. Feasibility Study on the Application of Continuous Core Drilling Technology with Air Hammers in Oil and Gas Exploration Engineering. World Geology, 2008,6(27):210-213.

41.Yongguang Zhang, Kun Yin, Rusheng Wang*. Design and Experimental Study of Air-Injected Bit for Reverse Circulation Continuous Sampling. Western Exploration Engineering, 2007,10(19):77-79.

42.Rusheng Wang, Kun Yin, Maosen Wang, et al. Experimental Study on Anti-jamming of Through-type Down-the-hole Hammer Drill in Complex Strata. Coal Mine Machinery, 2005,7(19):40-43.

43.Fanjiao Tan, Hongyong Chen, Kun Yin, Rusheng Wang*. Finite Element Study on Soil Deformation Under Impact Load. Rock and Soil Mechanics, Vol.25 No.12, Dec.2004.

44.Rusheng Wang, Kun Yin, Fanjiao Tan, et al. Preliminary Exploration of Foam Down-the-hole Hammer in Hydrological Well Drilling Process. Journal of Jilin University (Earth Science Edition), 2004,4(34):639-642.

45.Rusheng Wang, Kun Yin, et al. Research on Foam Down-the-hole Hammer in Hydrological Well Drilling Process. Proceedings of the International Conference on New Technologies in Hydrological Well Drilling and Completion, Geological Publishing House, 2004,12:59-65.

46.Fanjiao Tan, Hongjun Qi, Kun Yin, Rusheng Wang. Experimental Study on Flow Distribution of Jet Impact Drill in Geothermal Wells. Coal Mine Machinery, Dec. 2003.

47.Fanjiao Tan, Rusheng Wang*, et al. Practice and Analysis of Jet Liquid Hammer with Rotary Impact Diamond Drill. Journal of Jilin University (Earth Science Edition), 2003,4(33):564-567.

48.Kun Yin, Maosen Wang, Jianming Peng, Rusheng Wang (Eds.). Impact Rotary Drilling (Textbook). Geological Publishing House, Oct. 2010.

Projects：

1. From 2021/12 to 2026/12, as the project PI, I am responsible for the National Key Research and Development Program project "Transformative Technology Theory and Methods," specifically the project "Mechanisms and Methods for Multi-Process Core Drilling at Ice-Rock Interfaces and Underlying Bedrock." Project Number: 2021YFA0719103, total funding: 3.5 million Yuan.

2. From 2016/01 to 2020/12, serving as the project coordinator and sub-project PI, I participated in the National Key Research and Development Program's major research project on the "Development of a Pollution-Free Drilling, Sampling, and Observation System for Subglacial Lakes in Antarctica." Project Number: 2016YFC1400302, total funding: 20.2 million Yuan.

3. From 2013/01 to 2020/12, as a key researcher and sub-project PI, I participated in the National Natural Science Foundation's major scientific instrument and equipment development project — "Non-Rotary Core Drilling Equipment for Deep Bedrock beneath Polar Ice." Project Number: 41327804, total funding: 9.6 million Yuan.

4. From 2014/01 to 2018/12, as the project PI, I undertook the National Natural Science Foundation's general project — "Research on the Influence of Hot Water Drilling Thermal Flow Field on Drilling Speed and Borehole Spatial Structure." Project Number: 41476160, total funding: 790000 Yuan.

5. From 2015/09 to 2017/12, as the project PI, I was responsible for a project commissioned by the Chinese Arctic and Antarctic Administration — "Research and Development of Measurement Systems for Borehole Diameter, Inclination, Temperature, and Pressure in Antarctic Deep Ice Core Drilling." Project Number: 3R1160094424, total funding: 840000 Yuan.

6. From 2015/01 to 2017/06, as the project coordinator and sub-project PI, I participated in the National 863 Program - "Key Technologies and System Development for Hot Water Drilling Machines on Ice Shelves." Project Number: 2011AA090401, total funding: 27.19 million Yuan.

7. From 2013/01 to 2015/12, as a key researcher, I contributed to a public welfare scientific research project by the Ministry of Natural Resources — "Technology for Protecting Borehole Walls in Deep Ice Layer Drilling." Project Number: 201311041, total funding: 2.44 million Yuan.

 

Patents (only listing out the patents granted by the first inventor from 120 patents)：

1. Wang Rusheng, et al. A hot water drilling system for upward holes at the bottom of ice shelves, February 27, 2024, Patent No. ZL201910722747.0;

2. Wang Rusheng, et al. A no-rod upward hot melt rotary drilling system for the bottom of ice shelves, February 20, 2024, Patent No. ZL201910722736.2;
3. Wang Rusheng, et al. Simulation device and method for the mechanical core drilling process in ice layers, November 1, 2022, Patent No. ZL 202210112743.2;
4. Wang Rusheng, et al. An electrothermal melting core drilling system for embracing ice cores at the bottom of ice shelves, April 3, 2020, Patent No. ZL201910723231.8;
5. Wang Rusheng, et al. A hot water drilling system for upward holes at the bottom of ice shelves, April 3, 2020, Patent No. ZL201921263996.X;
6. Wang Rusheng, et al. A no-rod upward hot melt rotary drilling system for the bottom of ice shelves, March 31, 2020, Patent No. ZL201921263939.1;
7. Wang Rusheng, et al. An experimental system and method for simulating the subglacial environment in Antarctica, Patent No. ZL201610428915.1;
8. Wang Rusheng, et al. A hot water core drilling bit for polar ice and snow drilling, Patent No. ZL201710090943.1;
9. Wang Rusheng, et al. Air turbine reverse circulation continuous coring drill bit for ice layers, Patent No. ZL201310645162.6;
10. Wang Rusheng, et al. A hot water core drilling tool used in glaciers, Patent No. ZL201610590705.2;
11. Wang Rusheng, et al. A hot melt drill bit for drilling in snow layers, Patent No. ZL201410673578.3;
12. Wang Rusheng, et al. Multifunctional testing platform for electric mechanical drilling tools for polar ice, Patent No. ZL201310259145.9;
13. Wang Rusheng, et al. A multifunctional rotary mobile platform for polar drilling experiments, Patent No. ZL201711013154.4;
14. Wang Rusheng, et al. A novel bionic polar hot water drilling nozzle, Patent No. ZL201621142123.X;
15. Wang Rusheng, et al. An experimental system simulating the subglacial environment in Antarctica, Patent No. ZL201620587871.2;
16.Wang Rusheng, et al. A novel bionic polar hot water drilling nozzle, Patent No. ZL201621142123.X;
17. Wang Rusheng, et al. A hot water core drilling tool used in glaciers, Patent No. ZL201620788005.X;
18. Wang Rusheng, et al. A hot melt drill bit for drilling in snow layers, Patent No. ZL201420706214.6;
19. Wang Rusheng, et al. A rapid air drilling reverse circulation continuous coring drill bit for ice layers, Patent No. ZL201320406894.5;
20. Wang Rusheng, et al. Multifunctional testing platform for electric mechanical drilling tools for polar ice, Patent No. ZL20132371652.7.

 

Honors and Awards：

1.《Impact Rotary Drilling》,Third Prize for Excellent Teaching Material in Higher Education Institutions of Jilin Province (Ranked Third), 2011.

2.《Impact Rotary Drilling》,Second Prize for Excellent Teaching Material in the Fourth Undergraduate Teaching Material Competition at Jilin University (Ranked Third), 2011.

3. Paper《Research on Air Reverse Circulation Continuous Coring Drilling Technology in Antarctic Ice Layers》,First Prize for Excellent Paper at the 18th National Mineral Exploration Engineering Academic Exchange Annual Conference (Ranked First), 2015.

4.Paper《Design of Hot Water Core Drilling Tools for Polar Ice Shelves and Pressure Loss Calculation》,First Prize for Excellent Paper at the 20th National Mineral Exploration Engineering Academic Exchange Annual Conference (Ranked First), 2019.

 

Courses:

Undergraduate Courses:

1. Impact Rotary Drilling

2. Specialized Drilling Technology

3. Directional Drilling Technology

4. Directional Drilling and Trenchless Construction Technology

5. Introduction to Mineral Exploration Engineering

6. Technical English

Postgraduate Courses:

Polar and Ocean Drilling

 

International Academic Conferences and Presentations:

1. Chile. 11th SCAR Open Science Conference, 2024.8.19-23. Thematic Report of the Conference : Multi-process Drilling in Complex Subglacial Geological Environments in Antarctica.

2. Changchun,China. International Seminar on “Antarctic Subglacial Environments”, 2024.9.19-20. Academic Report of the Conference: Research progress on multi-process drilling through deep ice and into subglacial bedrock in Antarctica.

3. Lanzhou,China. International Workshop on Ice Core Research in a Warming World: Bridging Polar Regions and High Mountains, 2023.9.26-27. Academic Report of the Conference: A new smart system of rapid ice drilling and continuous coring with air reverse circulation in glaciers.

4. Changchun,China. 8th International Symposium on Polar Earth Sciences and Exploration, 2023.9.21-23. Academic Report of the Conference: Multi-process Drilling in Complex Subglacial Geological Environments in Antarctica.

5. Japan. The 15th International Conference on the Physics and Chemistry of Ice, 2023.9.2-8. Academic Report of the Conference: Mechanism Research on Ice Core Adaptively Breaking For A New Ice-drilling Method of Continuously Coring with Air Reverse Circulation (CCARC).

6. Switzerland. International Partnerships in Ice Core Sciences 3rd Open Science Conference (The 3rd International Alliance for Ice Core Science Open Science Conference), 2022.10.2-8. Academic Report of the Conference: Research on the Key Parameters of Structure and Morphology of Drill Bit for Ice Core Drilling in Polar Ice Sheet; Thematic Academic Report: Continuously Coring with Air Reverse Circulation by a Rapid-air-movement Ice Drill System: Key Parameters and Mechanism Research on Ice Core Autonomously Breaking.

7. Denmark. 8th International Ice Drill Symposium, 2019.9.30-10.2. Academic Report of the Conference: A New Smart System of Rapid Continuous Coring Drilling with Air Reverse Circulation in Antarctica.

8. Denmark. 8th International Ice Drill Symposium, 2019.9.30-10.2. Academic Report of the Conference: Optimization of Drill Head Structure and Drilling Parameters of Hot-Water Ice-Coring Drill.

9. Korea. 13th International Symposium on Antarctica Earth Sciences-ISAES2019, 2019.7.22-26, Academic Report of the Conference: A New Smart System of Rapid Continuous Coring Drilling with Air Reverse Circulation in Antarctica.

10. Switzerland. Polar 2018 (Where the Poles come together: A SCAR and IASC Event), 2018.6.19-23. Academic Report of the Conference: Ice Drill Testing Facility.

11. America. 2017 AGU Fall Meeting, 2017.12.11-15.

12. Australia. The International Partnerships in Ice Core Sciences Second Open Science Conference, 2016.3.6-3.11. Academic Report of the Conference: Multi-functional Cold Workshop for Ice Drilling Tests.

13. Australia. The International Partnerships in Ice Core Sciences Second Open Science Conference, 2016.3.6-3.11. Academic Report of the Conference: Rapid Intermediate Ice Drilling Technology with Air Reverse-Circulation.

14. India. 12th International Symposium on Antarctica Earth Sciences ISAES2015, 2015.7.13-17. Academic Report of the Conference: Rapid Intermediate Sub-Ice Geological Drilling Technology with Air Reverse-Circulation Continual Sampling in Antarctica.

15. China. 6th International Symposium on “POLAR EARTH SCIENCES AND EXPLORATION”，2015.5.19-20. Academic Report of the Conference: The Progress of Designing and Construction of Low- Temperature Multi-functional Workshop for Ice Drilling Test.

16. China. 5th International  symposium on polar earth sciences and exploration, 2014.5.20-21. Academic Report of the Conference: Rapid Ice Drilling Concept With Air Continual Transporting Of Cuttings And Cores.

17. Austria. General Assembly 2014 of the European Geosciences Union,2014.4.27-5.2. Academic Report of the Conference: Cable-suspended Ice and Bedrock Electromechanical Drill: Design and Tests.

18. America. 7th International Workshop on Ice Drilling Technology, 2013.9.9-13. Academic Report of the Conference: Rapid ice drilling concept with air continual transporting of cuttings and cores.