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谭思超

Tan Si Chao

Department： Nuc. Sci.&Tech.

Discipline： Nuc Sci & Eng.

Duty： Dean

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Tel： 0451-82518688

Fax： 0451-82518400

E-Mail： tansichao@hrbeu.edu.cn

Postcode： 150001

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Sichao Tan received his Ph.D. in Nuclear Science and Technology from the Harbin Engineering University (HEU), China, in 2006. He continued his research as an Assistant Professor after graduation at HEU, where he established the Laser Diagnose Laboratory. In 2009, he became Full Professor of the College of Nuclear Science and Technology (CNST) of HEU. In 2018, he was elected as the Young Distinguished Professor of Longjiang Scholar.
Prof. Tan’s research interest includes fundamental studies on the Nuclear Reactors Thermal Hydraulics for both Land-based and Floating Power Plant, the performance and characteristics of the Floating Power Plant, the Small Nuclear Reactor, and the Advanced Laser Diagnostic Technology. He is the PI of several research projects of the National Key R&D Program of China and received approximately $3 million research funding. He has published more than 120 journal papers, held 10 patents, and written an academic monograph entitled “Characteristics of Nuclear Reactor Thermal Hydraulics under Ocean Conditions".
Prof. Tan teaches multiple courses in Mechanical Engineering and Nuclear Engineering. His English course “Nuclear Reactor Engineering” was elected as the top course for International Students by the Department of the Ministry of Education, China. The Chinese version of the course was selected as the key project of the graduate education.

Education

1997.9-2001.7, Harbin Engineering Univeristy, Bachlor
2001.9-2003.7, Harbin Engineering Univeristy, Master
2003.9-2006.3, Harbin Engineering Univeristy, PHD

Experience

2006.4-2007.8, Lecturer, College of Nuclear Science and Technology, Harbin Engineering University

2006.7-2009.6, Postdoc, Nuclear Science and Technology Postdoctoral Station, Xi'an Jiaotong University

2007.9-2009.8, Associate Professor, School of Nuclear Science and Technology, Harbin Engineering University

2009.5-2010.5, Visiting Scholar, Department of Nuclear Engineering, Texas A&M University, USA

2009.9 to present, Professor, College of Nuclear Science and Technology, Harbin Engineering University

2012.12-2014.12, Director of the Talent Affairs Office and Deputy Director of the Human Resources Department of Harbin Engineering University

2014.12-2016.6, Director of the Human Resources Department of Harbin Engineering University

2016.1-2016.12, Acheng District, Harbin City, Heilongjiang Province, member of the Standing Committee of the District Committee and deputy district chief

2016.6-2019.11, Director of the Human Resources Department and Director of the Talent Work Office of Harbin Engineering University

2019.11-2022.6, Secretary of the Party Committee of School of Nuclear Science and Technology, Harbin Engineering University
2022.6 to present, Dean of the Collage of Nuclear Science and Technology, Harbin Engineering University

Research Fields

Nuclear Reactor Thermal Safety

Small Nuclear Reactor Technology

Application of Artificial Intelligence in Nuclear Engineering

Projects

1. National Key R&D Program, Joint Research on Transient Thermal Hydraulic Behavior of Pressurized Water Reactor Fuel Assemblies, 2018/01-2020/12, Hosted
2. National Natural Science Foundation of China general project, Research on boundary layer structure and flow thermal mechanism of rod bundle channel under unsteady conditions, 2023-2026, Hosted
3. Heilongjiang Provincial Natural Science Foundation of China Distinguished Young Scholars Fund Project, Study on Physical and Thermal Coupling Characteristics of Floating Reactor Fuel Assemblies, 2019-2022, Hosted
4. Next-generation advanced pressurized water reactor project, intelligent operation and maintenance model verification technology under typical automatic start-up conditions of nuclear power plants, 2022-2024, Hosted
5. Next-generation advanced pressurized water reactor project, Development of intelligent operation and maintenance model for advanced nuclear energy systems under variable operating conditions, 2023-2024, Hosted

6. Fund project of the Key Laboratory of Nuclear Reactor System Design Technology of CNNC, Research on the flow field and temperature field characteristics of narrow rectangular channels based on laser diagnostic technology, 2018/01-2019/12, Hosted

7. CNNC Leading Fund, key technologies for high-efficiency nuclear power ramjet core thermal engineering, launched in 2020, Hosted

8. Major project of the Ministry of Science and Technology, development of system analysis software data standards, 2019/10-2020/10, Hosted

9. Nuclear and Radiation Safety Center Project of the Ministry of Environmental Protection, Experimental Research on Natural Convection and Thermal Stratification in Internal Replacement Water Tanks, 2017/09-2018/03, Hosted

10. China General Nuclear Power Research Institute project, flow-induced vibration test of cobalt rod on pilot cobalt target, 2017/07-2018/04, Hosted

11. China General Nuclear Power Research Institute Co., Ltd., Research on the impact of sloshing phenomenon on small reactor regulators, 2017/05-2018/09, Hosted

12. Project of Shanghai Nuclear Engineering Research and Design Institute Co., Ltd., Development and verification of local model of system analysis program, 2017/05-2017/12, Hosted

13. Fund Project of Key Laboratory of Nuclear Reactor System Design Technology of CNNC, Research on Experimental and Numerical Simulation Methods of Diffusion Behavior of Boron-Containing Solutions, 2017/02-2019/02, Hosted

14. National Science, Technology and Industry Bureau project, Research on the mechanism of velocity measurement method for flow field characteristics in pumps/valves, 2017/01-2018/12, Hosted

15. Nuclear and Radiation Safety Center Project of the Ministry of Environmental Protection, sub-channel program verification based on laser diagnostic technology, 2017/01-2019/11, Hosted

16. Key Laboratory of Thermal Power Technology Fund Project, Research on the dynamic operating characteristics of passive waste heat removal systems under marine conditions, 2017/01-2018/12, Hosted

Academic Communication

[1] Plenary Lecture: Key Technologies for Engineering Application and Adaptation of Artificial Intelligence in the Nuclear Field, Innovation Forum in the Field of Nuclear Basic Common Technology, Harbin, China, 2023.07
[2] Keynote report: Experimental and numerical simulation of velocity boundary layer structure in rod bundle channel and rectangular channel, International Conference on Nuclear Engineering, Proceedings, ICONE 30, Kyoto, Japan，2023.05
[3] Plenary Lecture:Artificial Intelligence Technology and Small Reactor Supervision, The 6th National Small Reactor Safety Supervision Seminar, Suzhou, China, 2023.09
[4] Plenary Lecture: High-Fidelity Data Measured by laser Induced Fluorescence for Benchmark of CFD Simulation, International Conference on Nuclear Engineering, Proceedings, ICONE29, Shenzhen, China, 2022.08
[5] Plenary Lecture: Analysis of the Characteristics on New Coolants and Thoughts of Research Methods, The Second Academic Annual Meeting of the Nuclear Reactor Thermofluid Mechanics Branch of the Chinese Nuclear Society, Harbin, China, 2022.12
[6] Plenary Lecture: Effects of unsteady operation on flow and heat transfer characteristics of coolant in nuclear fuel assembly, 7th International Workshop on Heat-Mass Transfer Advances for Energy Conservation and Pollution Control, IWHT2021, Harbin, China, 2021.08
[7] Keynote report: Study on the Evolution of Flow Field and Heat Transfer Characteristics in Rod Bundle Channels under Transient Conditions, National Conference on Thermofluid Dynamics of Nuclear Reactors, Harbin, China, 2020.12
[8] Keynote report: A brief analysis of small-scale nuclear energy and its application based on the demand for reliability and long endurance, Shanghai Space Nuclear Power Application Technology High-Level Forum, Shanghai, April 2018

[9] Keynote report: Preliminary scheme design of space nuclear power, Shanghai Space Nuclear Power Application Technology High-Level Forum, Shanghai, April 2018

[10] Keynote Lecture:Laser Diagnostic Technique in Verification and Validation of Nuclear Reactor Thermohydraulics Analysis. The 7th China-Korea Workshop on Nuclear Reactor Thermal-Hydraulics(WORTH-7),Kunming China.October 2015.

[11] Keynote report: Research on fuel assembly design technology based on laser diagnostic technology, the first national reactor nuclear fuel technology development seminar, Chengdu, Sichuan, October 2016.

Admissions

Students who interested in working with Dr. Tan for pursuing Ph. D. and Master degree, please contact tansichao@hrbeu.edu.cn.

Full scholarship for Ph. D. and Master can be applied and provided with recommendation from Dr. Tan, see link: CSC&IAEA Atomic Energy Scholarship of China (AES) by CSC&IAEA, HEU Weblink

Course For Undergraduate

"Heat Transfer" bilingual (provincial first-class undergraduate course)

"Thermal Fluids" (Full English course at Southampton United College)

"Engineering Fluid Mechanics"

"Pumps and Valves"

Course For Postgraduate

"Nuclear Reactor Engineering" Bilingual" (National level courses)

"Nuclear Reactor Thermal Hydraulics"

"Thermal Fluids"

Practical Teaching

Harbin Engineering University's excellent postgraduate course "Nuclear Reactor Engineering" bilingual

Teaching Research

Heilongjiang Province Education and Teaching Reform Research Project, research on the inquiry-based teaching model based on the "American National Science Education Standards"

Harbin Engineering University education and teaching reform research project, construction of bilingual courses for nuclear engineering major based on ABET certification standards

Excellent postgraduate course at Harbin Engineering University, excellent bilingual course "Nuclear Reactor Engineering"

Harbin Engineering University multimedia construction project, "Nuclear Reactor Engineering" bilingual courseware construction

Social Position

National Natural Science Foundation of China Peer Review Expert

China Scholarship Council Peer Review Expert

China Postdoctoral Science Foundation Peer Review Expert

Member of the Technical Committee of Shaanxi Advanced Nuclear Energy Engineering Research Center

Member of the Academic Committee of Shenzhen Key Laboratory of Reactor Safety

Editorial board member of "Journal of Harbin Engineering University"

Reviewer of many domestic and foreign journals such as "International Journal of Heat and Mass Transfer"

Member of NURETH-17, NUTHOS-12 technical committee

Patent

[1] Tan Sichao, Huang Yunlong, Zhou Peng, Li Xin, Su Jianke, Mi Zhengpeng, Li Xing. A centrifugal pump flow field-pressure pulsation coupling measurement experimental system [P]. Heilongjiang: CN108757505A, 2018-11-06.

[2] Tan Sichao, Su Jianke, Li Xing, Huang Yunlong, Mi Zhengpeng, Zhang Qi, Zhang Lixin. Design of a scalable rod bundle channel multi-physics visualization ontology [P]. Heilongjiang: CN207474083U, 2018-06-08.

[3] Tan Sichao, Huang Yunlong, Li Xin, Mi Zhengpeng, Su Jianke, Li Xing, Lu Ruibo, Zhou Peng. Visualized pilot cobalt target cobalt rod flow-induced vibration experimental device [P]. Heilongjiang: CN107830979A, 2018-03-23 .

[4] Tan Sichao, Mi Zhengpeng, Li Xing, Huang Yunlong, Su Jianke, Wang Ruiqi, Wang Xiaoyu. Rod bundle channel temperature field measurement visualization experimental system [P]. Heilongjiang: CN206432045U, 2017-08-22.

[5] Tan Sichao, Li Xing, Mi Zhengpeng, Su Jianke, Huang Yunlong, Wang Ruiqi, Wang Xiaoyu. Rod bundle channel flow pressure measurement experimental device [P]. Heilongjiang: CN106683722A, 2017-05-17.

[6] Tan Sichao, Wang Xiaoyu, Wang Ruiqi, Mi Zhengpeng, Li Xing, Zhao Tingjie. Rod bundle channel flow visualization experimental system [P]. Heilongjiang: CN204831962U, 2015-12-02.

[7] Tan Sichao, Li Shaodan, Wang Xiaoyu, Wang Ruiqi, Gao Puzhen, Fu Xuekuan. All-round visual pool boiling experimental device [P]. Heilongjiang: CN204731178U, 2015-10-28.

[8] Tan Sichao, Wang Xiaoyu, Zhao Tingjie, Gao Puzhen, Wang Ruiqi. An experimental and measurement system for visual research on unsteady flow heat transfer [P]. Heilongjiang: CN104458204A, 2015-03-25.

[9] Tan Sichao, Wang Xiaoyu, Li Shaodan, Gao Puzhen, Wang Ruiqi, Zhuang Nailiang. Multi-faceted visual flow heating experimental device [P]. Heilongjiang: CN204170744U, 2015-02-25.

[10] Tan Sichao, Wen Jing, Fu Xuekuan, Meng Tao, Wang Xiaoyu, Zhu Zijian. A detachable experimental device for studying the behavior of multi-row bubbles [P]. Heilongjiang: CN104236850A, 2014-12-24.

[11] Tan Sichao, Wen Jing, Fu Xuekuan, Meng Tao, Wang Xiaoyu, Zhu Zijian. A visual experimental device for simulating bubble behavior in steam generators [P]. Heilongjiang: CN104236851A, 2014-12-24.

[12] Tan Sichao, Li Shaodan, Wang Xiaoyu, Zhao Tingjie, Cheng Kun. PLIF-PIV visualized pool boiling experimental device heater [P]. Heilongjiang: CN104048986A, 2014-09-17.

[13] Tan Sichao, Fu Xuekuan, Song Yulin. An experimental and automatic image acquisition system for studying bubble behavior under sway conditions [P]. Heilongjiang: CN103940579A, 2014-07-23.

[14] Tan Sichao, Li Shaodan, Cheng Kun, Gao Puzhen, Tian Ruifeng. A measuring device for measuring the cross-sectional gas content of two-phase fluid [P]. Heilongjiang: CN103529003A, 2014-01-22.

[15] Tan Sichao, Wang Xiaoyu, Yang Zheng, Li Shaodan, Zhuang Nailiang. An experimental and measurement system for visual research on pulsating flow regime transition [P]. Heilongjiang: CN103512723A, 2014-01-15.

Book

Monograph "Research on Thermal Hydraulic Characteristics of Reactors under Marine Conditions" (ISBN: 978-7-118-11254-2), National Defense Industry Press, No. 1

Textbook "Thermal Hydraulic Calculation Methods for Nuclear Power Systems" (ISBN: 978-7-302-30710-5), Tsinghua University Press, co-editor

Article

[1] Wei T., Zhang B., Wang S., et al. Numerical analysis of passive safety injection driven by natural circulation in floating nuclear power plant[J]. Energy, 2023, 263: 126077.

[2] Weian Du, Yusheng Liu, Hongsheng Yuan, Shouxu Qiao, SichaoTan. Experimental investigation on natural convection and thermal stratification of IRWST using PIV measurement. International Journal of Heat and Mass Transfer, Volume 136, June 2019, Pages 128-145.

[3]Ayodeji A.Ala,Sichao Tan,Abdelgadir Eltayeb,Zahraddeen Abbati. Experimental study on sudden contraction and split into the inlets of two parallel rectangular jets. Experimental Thermal and Fluid Science,Volume 104, June 2019, Pages 272-283.

[4]Kun Cheng, Tao Meng, Sichao Tan, Zheng Liu. Experimental study on natural circulation flow instability in parallel boiling channels under low pressure. International Journal of Heat and Mass Transfer, Volume 132, April 2019, Pages 1126-1136.

[5]Chen Zeng, Sichao Tan, Shouxu Qiao, Fulong Zhao, Tao Meng. A simplified method for calculating the heat rejection from a rectangle droplet sheet. International Journal of Heat and Mass Transfer, Volume 132, April 2019, Pages 762-771 .

[6]Xing Li, Peiyao Qi, Tingjie Zhao, Shouxu Qiao, Sichao Tan. LIF study of temporal and spatial fluid mixing in an annular downcomer. Annals of Nuclear Energy, Volume 126, April 2019, Pages 220-232.

[7]KunCheng, TaoMeng, FulongZhao, SichaoTan. Development and validation of a thermal hydraulic transient analysis code for offshore floating nuclear reactor based on RELAP5/SCDAPSIM/MOD3.4. Annals of Nuclear Energy, Volume 127, May 2019, Pages 215- 226.

[8]Tao Meng, Kun Cheng, Chen Zeng, Yuhao He, Sichao Tan. Preliminary control strategies of megawatt-class gas-cooled space nuclear reactor with different control rod configurations. Progress in Nuclear Energy, Volume 113, May 2019, Pages 135 -144.

[9]Abdelgadir Eltayeb, Sichao Tan, Zhang Qi, Ayodeji A. Ala, Nisrene. M. Ahmed. PLIF experimental validation of a FLUENT CFD model of a coolant mixing in reactor vessel down-comer. Annals of Nuclear Energy, Volume 128, June 2019, Pages 190-202.

[10]Xing Li, Zhengpeng Mi, Sichao Tan, Xiaoyu Wang, Ruiqi Wang. Experimental investigation of fluid mixing inside a rod bundle using laser induced fluorescence. Progress in Nuclear Energy, 2019,90-102.

[11]Kun Cheng, Tao Meng, Chunping Tian, Hongsheng Yuan, Sichao Tan*, Experimental investigation on flow characteristics of pressure drop oscillations in a closed natural circulation loop: International Journal of Heat and Mass Transfer, 2018, 122: 1162-1171 .

[12]Xing Li, Zhengpeng Mi, Sichao Tan, Ruiqi Wang, Xiaoyu Wang, PIV study of velocity distribution and turbulence statistics in a rod bundle, Annals of Nuclear Energy, Volume 117, July 2018, Pages 305-317.

[13]HongshengYuan, SichaoTan, WeianDu, ShuhuaDing, ChaoGuo. Heterogeneous bubble nucleation model on heated surface based on free energy analysis. International Journal of Heat And Mass Transfer, Volume 122, July 2018, Pages 1198-1209.

[14]Ayodeji AdebisiAla, SichaoTan, Abdelgadir Eltayeb, ZhengpengMi. Effects of low-Re pulsatile flow on friction characteristics in bare square array rod bundles. Annals Of Nuclear Energy, Volume 120, October 2018, Pages 630-641.

[15]Zhuang, N., S. Tan, and H. Yuan, 2017, Flow resistance of low-frequency pulsatile turbulent flow in mini-channels. International Journal of Heat and Fluid Flow, v 65: p. 21-32.

2016

[16]Wang, X., R. Wang, S. Du, J. Chen, and S. Tan, 2016, Flow visualization and mixing quantification in a rod bundle using laser induced fluorescence: Nuclear Engineering and Design, v. 305, p. 1-8.

[17]Yu, Z., H. Yuan, C. Chen, Z. Yang, and S. Tan, 2016, Two-phase flow instabilities of forced circulation at low pressure in a rectangular mini-channel: International Journal of Heat and Mass Transfer, v. 98, p. 438-447.

[18]Yu, Z., S. Tan, H. Yuan, C. Chen, and X. Chen, 2016, Experimental investigation on flow instability of forced circulation in a mini-rectangular channel under rolling motion: International Journal of Heat and Mass Transfer, v. 92, p. 732-743.

[19] Yuan, H., S. Tan, J. Wen, and N. Zhuang, 2016, Heat transfer of pulsating laminar flow in pipes with wall thermal inertia: International Journal of Thermal Sciences, v. 99, p. 152- 160.

[20] Yuan, H., S. Tan, L. Feng, and X. Liu, 2016, Heterogeneous bubble nucleation on heated surface from insoluble gas: International Journal of Heat and Mass Transfer, v. 101, p. 1185-1192 .

[21] Yuan, H., S. Tan, N. Zhuang, and S. Lan, 2016, Flow and heat transfer in laminar-turbulent transitional flow regime under rolling motion: Annals of Nuclear Energy, v. 87, p. 527 -536.

[22]Zhuang, N., S. Tan, and H. Yuan, 2016, The friction characteristics of low-frequency transitional pulsatile flows in narrow channel: Experimental Thermal and Fluid Science, v. 76, p. 352-364.

[23]Hongsheng Yuan, Sichao Tan, Nailiang Zhuang, Shu Lan. Flow and heat transfer in laminar–turbulent transitional flow regime under rolling motion. Annals of Nuclear Energy, Volume 87, Part 2, January 2016, Pages 527-536.

[24]Li, S., S. Tan, and H. Yuan, 2015, Theoretical study on temperature oscillation of a parallel-plate in pulsating flow condition: International Journal of Heat and Mass Transfer, v. 81, p. 28-32.

[25]Li, S., S. Tan, C. Xu, and P. Gao, 2015, Visualization study of bubble behavior in a subcooled flow boiling channel under rolling motion: Annals of Nuclear Energy, v. 76, p. 390-400.

[26]Yu, Z., S. Lan, H. Yuan, and S. Tan, 2015, Temperature fluctuation characteristics in a mini-rectangular channel under rolling motion: Progress in Nuclear Energy, v. 81, p. 203-216.

[27]Li, S., S. Tan, P. Gao, and C. Xu, 2014, Experimental research of bubble number density and bubble size in narrow rectangular channel under rolling motion: Nuclear Engineering and Design, v. 268, p. 41-50.

[28]Yuan, H., S. Tan, N. Zhuang, and L. Tang, 2014, Theoretical analysis of wall thermal inertial effects on heat transfer of pulsating laminar flow in a channel: International Communications in Heat and Mass Transfer, v. 53, p. 14-17.

[29]Zhang, W., S. Tan, P. Gao, Z. Wang, L. Zhang, and H. Zhang, 2014, Non-linear time series analysis on flow instability of natural circulation under rolling motion condition: Annals of Nuclear Energy, v. 65, p. 1-9.

[30]Zhuang, N., S. Tan, H. Yuan, and C. Zhang, 2014, Flow resistance characteristics of pulsating laminar flow in rectangular channels: Annals of Nuclear Energy, v. 73, p. 398-407.

[31]Tan, S., Z. Wang, C. Wang, and S. Lan, 2013, Flow fluctuations and flow friction characteristics of vertical narrow rectangular channel under rolling motion conditions: Experimental Thermal and Fluid Science, v. 50, p. 69-78.

[32]Li, S., S. Tan, C. Xu, P. Gao, and L. Sun, 2013, An experimental study of bubble sliding characteristics in narrow channel: International Journal of Heat and Mass Transfer, v. 57, p. 89-99.

[33]张文超，谭思超，高璞珍. The identification and forecasting of chaos for natural circulation flow instabilities under rolling motion摇摆条件下自然循环系统流量混沌脉动的检验与预测.物理学报，2013年62卷144706-144706.

[34]张文超，谭思超，高璞珍. Chaotic forecasting of natural circulation flow instabilities under rolling motion based on lyapunov exponents基于Lyapunov指数的摇摆条件下自然循环流动不稳定性混沌预测.物理学报，2013年62卷53-60.

[35]Tan, S. C., G. H. Su, and P. Z. Gao, 2009, Experimental and theoretical study on single-phase natural circulation flow and heat transfer under rolling motion condition: Applied Thermal Engineering, v. 29, p. 3160-3168.

[36]Tan, S., G. H. Su, and P. Gao, 2009, Experimental study on two-phase flow instability of natural circulation under rolling motion condition: Annals of Nuclear Energy, v. 36, p. 103-113.

[37]Tan Si-chao, G. H. Su, Gao Pu-zhen. Heat transfer model of single-phase natural circulation flow under a rolling motion condition. Nuclear Engineering and Design, Volume 239, Issue 10, October 2009, Pages 2212-2216.

Honors

2014, selected into the Heilongjiang Provincial University Youth Academic Backbone Support Program

2018, he won the Heilongjiang Provincial Outstanding Youth Fund
2019, selected into the Heilongjiang Provincial Outstanding Youth Fund
2020, he won the China Nuclear Energy Industry Association Science and Technology Award (Youth Outstanding Innovative Figure)
2020, he won the Heilongjiang Youth Science and Technology Award
2023, selected into the Heilongjiang Provincial Distinguished Teaching Teacher

Awards

National Outstanding Doctoral Thesis, Nomination Award, 2009
Science and Technology Progress Award of the Ministry of Industry and Information Technology, Third Prize, 2011
Heilongjiang Provincial Science and Technology (Nature) Award, Second Prize, 2017
Provincial and Ministerial Level Science and Technology Award, Third Prize, 2018
National Teaching Achievement Award, Second Prize, 2018
Provincial and Ministerial Level Science and Technology Invention Award, First Prize, 2022
Higher Education Teaching Accomplishments of Heilongjiang Province, Second Prize, 2022
National Teaching Achievement Award, Second Prize, 2023

Personal Information

Introduction：
Education Background :
Professional Experience :
Qualifications and Skills :
Academic Positions and Titles :

Research

Research Fields：
Projects：
Honors and Awards、Academic Activities：

Teaching

Admission:
Courses:
Practical Teaching：

Publications

Books:
Journal and Conferences:
Patents:
Software Copyrights:	"

Group

Tan Sichao Tian Ruifeng Gao Puzhen
Li Dongyang Qiao Shouxu Zhao Fulong Han Rui Li Xiaochang Wei Hongyang Wen Jiming Sun Rulei Gui Minyang Cheng Hui Wang Bo Li Jiangkuan Tan Bing

谭思超