Title: Professor   / Doctoral supervisor

Email:   chenchen@jlu.edu.cn

Address:   229, You Yeyan Building

Research Interests

1.Complex   conditions drilling technology

2.Unconventional oil and gas   resources

3.Polar   construction technology

Education

1.09/1982 – 06/1986, Bachelor in Drilling   Engineering, Changchun University of Geosciences, China

2.09/1988 – 06/1991, Master in Exploration   Engineering, Changchun University of Geosciences, China

3.09/1997 – 12/2001, Doctor in Geological   Engineering, Jilin University, China

Working Experience

1.07/1986 – 08/1988, Assistant Lecturer, Changchun   University of Geosciences, China

2.07/1991 – 12/1996, Lecturer, Changchun University   of Geosciences, China

3.08/1995 – 08/1996, Visiting Scholar, St. Petersburg   Institute of Mining, Russia, Russia

4.01/1997 – 04/2000, Assistant Professor, Changchun   University of Science and Technology, China

5.05/2000 –now, Jilin University, China, promoted to Professor in   2004 and appointed as Doctoral Supervisor in 2008, China

6.09/2002 – 02/2005, Postdoctoral Fellow,   Postdoctoral Station of Civil Engineering, Harbin Institute of Technology,   China

7.12/2012 – 01/2021, Vice Dean, School of   Construction Engineering, Jilin University, China

Representative   Achievements

Chen Chen works in the field of geological resources   and geological engineering national key first-class disciplines of Jilin   University, as the principal investigator in charge of the National Natural   Foundation of China, the Ministry of Education and the Ministry of Finance   leapfrog project, the Ministry of Natural Resources public welfare projects,   the Jilin Provincial Department of Science and Technology key projects and   international cooperation projects, the cumulative funding of the project is 15.62   million yuan.  Also won one National   Technical Invention Second Prize and one Ministry of Education Technical   Invention First Prize. He is the technical leader of the National Local Joint   Engineering Laboratory, the Engineering Center of the Ministry of Education,   the Key Laboratory of the Ministry of Natural Resources, and the member and   reviewer of the National Science and Technology Award, the National Natural   Science Foundation of China, the China Coal Society, and the seventh batch of   Outstanding Contribution Experts of Changchun City and Tang Aoqing Scholar   Talent of Jilin University. As for the transformation of research finding,   the research results have reduced the fracturing cost of Songyuan oil shale   in-situ conversion demonstration project by 30% and produced oil smoothly,   and supported the commercial development of hydrate in the South China Sea   and the smooth implementation of Chinese Antarctic scientific research.

Projects

1. 01/2019-12/2022,   The National Natural Science Foundation of China ( NSFC)–   Surface Project, Principal Investigator，￥650K.

2. 01/2017-12/2022   Demonstration Project of Provincial and University Construction (New Energy   Special Project), ￥40,000K，

3. 01/2017-12/2020,   The   National Natural Science Foundation of China ( NSFC)–   Surface Project, Principal Investigator，￥560K.

4. 01/2017-12/2019,   Science and Technology Development Plan Project of Jilin province, Principal   Investigator，￥160K.

5. 01/2016-12/2018,   Science and Technology Development Plan Project of Jilin province, Principal   Investigator，￥700K.

6. 01/2014-12/2018,   The National Natural Science Foundation of China(NSFC)– Instrument and   Equipment Major Project, Partner Investigator，￥9,000K.

7. 01/2013-12/2017,   The Ministry of Science and Technology Cooperation Major Project with Russia   (PRC),Partner Investigator，￥4,350K.

8. 01/2013-12/2015,   The Ministry of Land and Resources Nonprofit Industry Scientific Research   Project , Principal Investigator，￥2,160K.

9. 01/2010-12/2015,   "Leapfrog Project", Ministry of Education and Ministry of Finance,   National Potential Oil and Gas Resources (Oil Shale Exploration, Development   and Utilization), ￥14,270K.

10. 01/2010-12/2012,   Ministry of Education and Ministry of Finance "Leapfrog Program",   National Potential Oil and Gas Resources (Oil Shale Exploration, Development   and Utilization) Industry-University-Research-Use Cooperation and Innovation   Research Project,￥6,270K.

Patents

Awards and Prizes

1. Jilin   University Tang Aoqing Scholar Talent Title 2020

2. The   seventh batch of experts with outstanding contributions in Changchun 2017

3. The   Second Prize of State Technological Invention Award 2016

4. The   First Prize of Education Ministry Technological Invention Award   2015

5. The   First Prize of Experimental Technical Achievement Award of Jilin University   2014

6. The   Second Prize of Natural Science Academic Achievement Award of Jilin Province   2012

Courses

Undergraduate   courses

1. Geotechnical   Engineering Construction, 240 class hours, number of electors: 50/year, core   course

2. Geotechnical   Engineering Design, 240 class hours, number of students: 60/year

3. Report   on new technologies, 40 class hours, 50 students/year

4. Geotechnical   Engineering Course Design, 120 class hours, 50 students/year

Postgraduate   courses

1. Geotechnical   construction technology, 200 class hours, number of students: 20/year

2. New   technology of foundation treatment, 200 class hours, number of electors:   50/year

3. Theory   and Technology of Drilling and Mining, 200 class hours, number of students:   60/year

Publications

1.Chen C.Geotechnical   Engineering Construction (2nd Edition)[M]. Geological Publishing House, 2015.

2.Chen C. Hot Lava and   Thermal Melting Ice Technology[M]. Science Press, 2012.

3.Chen C, Li X. Modern   Foundation Treatment Technology[M]. Geological Publishing House, 2011

4.Selected Journal Papers

5.Fracture network stimulation effect on hydrate development by depressurization combined with thermal stimulation using injection-production well pattern. Energy. 2021,228：120601. SCI

6.Evaluation of the gas production enhancement effect of hydraulic fracturing on combining depressurization with thermal stimulation from challenging ocean hydrate reservoirs. Journal of Natural Gas Science and Engineering. 2020, 83:103621. SCI

7.CH4 recovery and CO2 sequestration from hydrate-bearing clayey sediments via CO2/N2 injection . Journal of Natural Gas Science and Engineering. 2020,83:103503. SCI

8.Experimental investigation into methane production from hydrate-bearing clayey sediment by CO2 /N2 replacement. Energy Exploration & Exploitation. 2020, 38(6):014459872094118. SCI

9.Propane and Water: The Cooperativity of Unlikely Molecules to Form Clathrate Structures. The Journal of Physical Chemistry B. 2020,124 (22). SCI

10.Optimisation of hydraulic fracturing parameters based on cohesive zone method in oil shale reservoir with random distribution of weak planes. Journal of Natural Gas Science and Engineering. 2020,75:103130. SCI

11.A case study on the optimal design of the horizontal wellbore trajectory for hydraulic fracturing in nong'an oil shale. Energies. v 13,n 1. SCI

12.Investigation into the Water Jet Erosion Efficiency of Hydrate-Bearing Sediments Based on the Arbitrary Lagrangian-Eulerian Method. Applied sciences. 2019,v 9,n 1.SCI

13.Influence of Reservoir Stimulation on Marine Gas Hydrate Conversion Efficiency in Different Accumulation Conditions. Energies. 2018,v 11, n 2. SCI

14.Hydraulic fracturing in ice boreholes: Theory and tests. Polar Science. 2018,v 10,n 3. SCI

15.Stability Analysis in Determining Safety Drilling Fluid Pressure Windows in Ice Drilling Boreholes.Energies. 2018,11(12):3378. SCI

16.Chen C, Gao S, Sun Y, et al. Research on Underground Dynamic Fluid Pressure Balance in the Process of Oil Shale in-situ Fracturing-Nitrogen Injection Exploitation[J]. Journal of Energy Resources Technology, 2017, 139(3).SCI

17.Chen C, Yang L, Jia R, et al. Simulation Study on the Effect of Fracturing Technology on the Production Efficiency of Natural Gas Hydrate[J]. Energies, 2017, 10(8):1241.SCI

18.Zhao Fuzhang, Chen Chen, et al.BP-GRNN model for deformation prediction of diaphragm wall based on multi-source data. International Journal of Earth Sciences and Engineering, v 9, n 3, p 888-893, 2016.EI

19.Wan Z, Chen C. The Pier Foundation Design of the Beijing-shenyang Passenger Line Liaohe Super-large Bridge, International Conference on Engineering Science and Management. 2016.

20.Zhao F, Chen C, Qian F. Analysis of Neural Network Models in Prediction of Ground Surface Settlement around Deep Foundation Pit, International Conference on Architectural, Civil and Hydraulics Engineering. 2015.

21.Fang Qian, Chen Chen, et al.Characterization of nong’an oil shale pores at different temperatures, International Journal of Earth Sciences and Engineering, v 8, n 6, p 2776-2780,  2015.EI

22.Zhao S, Chen C, Zhan N. Research on the influences of insulation technology by plastic greenhouses on working temperature in aeration tanks in cold areas in winter[J]. International Journal of Heat & Technology, 2015, 33(1):181-186. EI

23.Zhao G J, Chen C, Dong X J, et al. APPLICATION OF FLAC3D FOR SIMULATION OF THE BOREHOLE HYDRAULIC MINING OF NONG’AN OIL SHALE[J]. Oil Shale, 2014, 31(3):278.SCI

24.Zhao G J, Chen C, Qian F. Application Prospects in China of Oil Shale In Situ Mining Method and an Improved Method[J]. Applied Mechanics & Materials, 2014, 535:602-605.EI

25.Dong X J, Chen C, Mao W F, et al. Substance Characteristic and Formation Mechanism Analysis of SuoDuoxi Deposit[J]. Applied Mechanics & Materials, 2014, 644-650(8):5077-5080.EI

26.Songying Z, Chen C. Soil temperature field analysis of radial buried tube continuous heat accumulation[J]. 2014, 7(5):1931-1936.EI

27.Zhao S Y, Chen C. Heat Simulation Analysis of Heat Exchangers with Inclined Boreholes in Ground-Source Heat Pump Systems[J]. Advanced Materials Research, 2014, 671-674:2551-2554. EI

28.Zhao S Y, Chen C. Heat Simulation Analysis of Heat Exchangers with Inclined Boreholes in Ground-Source Heat Pump Systems[J]. Advanced Materials Research, 2014, 674:2551-2554.

29.Wen J, Chen C. Study on hot melt drilling based on numerical computation and genetic neural network[J]. Journal of Central South University, 2013, 44(12):5051-5059.EI

30.Wen J W, Chen C, Qian F. Research on the Drilling Technique of Coal Bed Methane[J]. Advanced Materials Research, 2013, 618:555-559. EI

31.Chen C, Wang W, Sun Y, et al. Influence of the Heat Transfer Efficiency of Oil Shale In Situ Fragmentation[J]. 2013.EI

32.Liu  X P, Chen C, Yan X C, et al. Determination of physical and mechanical  properties and crack opening pressure in Huadian,Jilin province[J].  China Mining Magazine, 2013.

33.Zhao S, CHEN. Economic Analysis of Concrete Thermal Storage Piles[J]. Industrial Safety & Environmental Protection, 2013.

34.Liu  X P, Yan X C, Chen C, et al. Physical and mechanical parameters of  borehole hydraulic mining of Nong'an oil shale[J]. Oil Shale, 2012,  29(3):237.SCI

35.Wei  W, Chen C, Wang X, et al. Stress Wave Effect in Numerical Simulation on  the Oil Shale Breaking Under Water Jet[J]. Journal of Jilin University,  2012, 42:343-348.EI

36.Chen C, Wen J, Zhao S. Temperature Field of the Hot Melt Drilling Process[J]. Journal of Jilin University, 2012.EI

Professional Activities

1. Reviewer   of the National Office of Science and Technology Awards(NOSTA);

2. Network   reviewer the   National Natural Science Foundation of China ( NSFC);  

3. NSF   and local joint foundation evaluation expert 2019;

4. Member   of Drilling Committee of China Coal Society (China Coal Society);

5. Supervisions   of 12 PhD students and 5 MSc students.