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陳勝利副教授

研究領域:反應堆物理(中子學模擬與研究、核取證)
中子核數據(評估、處理、檢驗、使用)
輻照損傷評估(中子、電子、光子、質子等帶電粒子輻照離位損傷)
不確定度量化與誤差傳遞
(歡迎感興趣的同學聯系)

基本信息

陳勝利,男,副教授、博士生導師、中山大學“百人計劃”引進,中山大學中法核工程與技術學院

chenshli23(at)mail.sysu.edu.cn

Personal information

Shengli Chen, Associate Professor, Sino-French Institute of Nuclear Engineering and Technology, Sun Yat-sen University

 

個人經歷

2020.12-至今,中山大學,“百人計劃”專任教師、博導

2017.10-2020.10,法國原子能與可替代能源委員會(CEA)、格勒諾布爾-阿爾卑斯大學,能源專業,博士

2015.08-2017.06,中山大學中法核工程與技術學院,核能與核技術工程專業,工學碩士

2011.09-2015.06,中山大學中法核工程與技術學院,核工程與核技術專業,工學學士

 

Personal experience

2020.12-present, Sun Yat-sen University, Faculty

2017.10-2020.10,French Atomic Energy and Alternative Energies Commission (CEA) & Grenoble Alpes University,Doctor Degree of Fluid Mechanics, Energy, Processes.

2015.08-2017.06,Sino-French Institute of Nuclear Engineering and Technology, Sun Yat-sen University,Master Degree of Nuclear Energy and Technology Engineering;

2011.09-2015.06,Sino-French Institute of Nuclear Engineering and Technology, Sun Yat-sen University,Bachelor Degree of Nuclear Engineering and Technology

 

榮譽與獎項

第九屆高校學生課外“核+X”創意大賽2024年廣東省賽優秀指導老師

Nucl. Sci. Tech. 優秀論文(2022)

廣東省優秀學生(研究生階段)(2017)

國家優秀自費留學生獎學金(2019)

入選NUGENIA論壇學生獎(歐洲共8位)并獲資助參加FISA’19(2019)

25屆國際核工程大會“錢三強”最佳海報獎(2017)

優秀博士論文(2020)

優秀碩士論文(排名:1/15)(2017)

國家獎學金(2016-2017)

中廣核優秀科研獎學金(2017)

中法核工程與技術學院優秀畢業生(2015)

Awards & Honors                                                     

Excellent paper of Nucl. Sci. Tech.(2022)

Excellent graduate student in Guangdong Province (2017)

Chinese government award for   outstanding self-financed students abroad (2019)

Selected student for NUGENIA Forum   Award and financed for FISA’19 (2019)

ICONE-25 Qian Sanqiang Best Poster  (2017)

Thesis prize in doctoral school (2021)

Best master thesis in the institute   (ranking: 1/15), IFCEN (2017)

CGN outstanding research scholarship   (2017)

Chinese national scholarship (2016-2017)

Outstanding graduate of IFCEN (2015)

 

科研項目

1.  國家自然科學基金,青年科學基金項目,12205390,主持

2.  廣東省自然科學基金,面上項目,2023A1515010800,主持

3.  先進燃料有效溫度模型研究,主持 

4.  堆內低測點功率重構方法研究,主持   

5.  國家自然科學基金,專項項目,12242505,參與

6.  國家自然科學基金,面上項目,11775316,參與

7.  龍碼***研究,參與

8.  質量***研究,參與

9.  基于有限元模擬的異形燃料性能分析方法研究,參與

 

研究方向

  1. 反應堆物理(先進反應堆中子學模擬與研究、核取證)
  2. 中子核數據(評估、處理、檢驗、使用)
  3. 輻照損傷評估(中子、電子、光子、質子等帶電粒子輻照離位損傷)
  4. 不確定度量化與誤差傳遞

Research Interests

1.  Irradiation damage calculation from nuclear reactions (n, γ, FPs)

2.  Nuclear data evaluation, processing, validation, and application

3.  Neutronic analysis

4.  Uncertainty quantification and propagation

 

學術兼職

  1. Scientific Reports 期刊編委
  2. Nuclear Analysis 期刊青年編委
  3. 5th Reactor PHysics Asia conference (RPHA 2025) , Technical Track Leader
  4. 第十九、二十屆反應堆數值計算與粒子輸運學術會議暨2023、2024年反應堆物理會議 分會主席
  5. Journal of Nuclear Materials、Progress in  Nuclear Energy、Nuclear Engineering and Design、Annals of Nuclear Energy、Nuclear Science and Engineering、Nuclear Technology、Nuclear Instruments and Methods B、Nuclear Science and Techniques、Kerntechnik、EPJ N - Nuclear Sciences & Technologies、《核動力工程》、《核技術》等核科學與技術期刊審稿人
  6. Acta Materialia、Energy、Nuclear Fusion、Carbon、International Journal of Energy Research、Cogent Engineering 等期刊審稿人

  7. International Conference on Nuclear Data for Science and Technology (ND) 、Reactor PHysics Asia conference (RPHA)、全國反應堆物理會議(CORPHY)等國內外會議審稿人

     

學術論文(Publications)

期刊文章(一作/通訊):

  1. T. Wang, C. Zhao, J. Lin, S. Chen*et al., “Enhancing the effective temperature model for typical UO2 fuel in criticality calculations,” Progress in Nuclear Energy, 178: 105523, 2025
  2. H. Yang#, Z. Li#, S. Chen*, T. Wang, H. Wang, S. Chen, “Review of methods for online power-distribution reconstruction,” Annals of Nuclear Energy, 221: 111531, 2025
  3. S. Chen*, S. Chen, Z. Li, “A comparative analysis of uncertainty quantification using the deviation-based cost function,” Annals of Nuclear Energy, 214: 111196, 2025
  4. T. Wang, H. Yang, S. Chen*, C. Yuan*, “Advancing source reactor-type discrimination using machine learning techniques and SFCOMPO-2.0 experimental database,” Annals of Nuclear Energy, 211: 110952, 2025
  5. T. Wang#, S. Xu#, Z. Li, S. Chen*, “Investigation of the impact of thermal neutron scattering cross sections and angular distributions on criticality calculations,” Annals of Nuclear Energy, 210: 110851, 2025
  6. 陳勝利*, 王天翔, “兩個系列鈹反射層臨界基準實驗的一致性分析與核數據檢驗,” 物理學報, 74(6): 062801, 2025 (中文SCI)
  7. S. Chen, S. Chen*, “Evaluation of primary radiation damage cross sections with uncertainties for charged particles,” Journal of Nuclear Materials, 592: 154952, 2024
  8. S. Chen, S. Chen*, “Systematic study of displacement threshold and the near-threshold primary radiation damage model,” Nuclear Materials and Energy, 41: 101800, 2024
  9. S. Chen, T. Wang, Z. Zhang et al., “Linear Regression and Machine Learning for Nuclear Forensics of Spent Fuel from Six Types of Nuclear Reactors,” Physical Review Applied, 19: 034028, 2023 (Featured in Physics)
  10. J. Chen#, M. Liu#, C. Yuan*, S. Chen*et al., “Shell-model-based investigation on level density of Xe and Ba isotopes,” Physical Review C, 107: 054306, 2023
  11. T. Wang, S. Chen*, S. Xu, Z. Li, S. Chen, X. Wu, “OpenMC interpretation and analysis of two series highly-enriched-uranium thermal-spectrum benchmarks for nuclear data validation,” Annals of Nuclear Energy, 192: 110017, 2023
  12. S. Chen*, D. Bernard, L. Buiron, “Resonance self-shielded multigroup atomic displacement cross section for assessing neutron irradiation damage,” Nuclear Engineering and Design, 403: 112154, 2023
  13. S. Chen*, “Assessment of neutron irradiation effects via PKA spectra, displacement damage, and gas production: Application to reactor pressure vessel,” Nuclear Materials and Energy, 37: 101512, 2023
  14. S. Chen*, “Experimental validation and application of primary radiation damage models near the displacement threshold,” Results in Physics, 51: 106781, 2023
  15. S. Chen*, “Atomic displacement damage energy model up to high recoil energy,” Nuclear Instruments and Methods in Physics Research B, 536: 104-112, 2023
  16. S. Chen*, D. Cai, D. Bernard, Y. Peneliau, “Improved methods for calculating electron, positron, and photon radiation-induced displacement damage cross sections,” Nuclear Instruments and Methods in Physics Research B, 535: 137-148, 2023
  17. 陳勝利、袁岑溪*,“基于核數據的中子誘發原子離位損傷截面評估方法”,原子核物理評論,40(2): 303-313,2023
  18. S. Chen*, “Effective primary radiation damage model parameters for neutron irradiation experiments,” Journal of Nuclear Materials, 568: 153883, 2022
  19. S. Chen*, D. Bernard, “Recommendation for computing neutron irradiation damage from evaluated nuclear data,” Journal of Nuclear Materials, 562: 153610, 2022
  20. S. Chen*, “New evaluation of neutron-induced displacement damage cross section for EUROFER97,” Nuclear Materials and Energy, 33: 101284, 2022
  21. S. Chen*, B. Cai, C. Yuan*, Z. Li, C. Zhang, “Evaluation of neutron irradiation-induced displacement damage in heat pipe reactor,” Nuclear Materials and Energy, 32: 101216, 2022
  22. S. Chen*, “Study of neutron capture reaction-induced displacement damage cross section and KERMA factor,” Nuclear Instruments and Methods in Physics Research B, 513: 1-8, 2022
  23. Z. Zhang, T. Wu, Y. Wang, S. Chen*, C. Yuan*, J. Zhu “Core design and neutronic study on small reactor with advanced fuel designs,” Nuclear Materials and Energy, 29: 101068, 2021
  24. S. Chen*, D. Bernard, L. Tamagno et al., “Uncertainty assessment for the displacement damage of a pressurized water reactor vessel,” Nuclear Materials and Energy, 28: 101017, 2021
  25. S. Chen*, Y. Peneliau, D. Bernard, “Comparison of evaluated nuclear data for neutron irradiation damage calculation in fusion spectra,” Fusion Engineering and Design, 171: 112594, 2021
  26. S. Chen*, E. Vandermeersch, P. Tamagno et al., “Uncertainty propagation from n+56Fe nuclear reaction model parameters to neutron multiplication factor,” Annals of Nuclear Energy, 163: 108553, 2021
  27. S. Chen*, “Methods for calculating the (n,2n) reaction-induced damage cross section with different approaches of kinematics,” Nuclear Instruments and Methods in Physics Research B, 508: 41-48, 2021
  28. S. Chen*, “Low-energy atomic displacement model of SRIM simulations,” Nuclear Science and Techniques, 32: 119, 2021
  29. S. Chen*, P. Tamagno*, D. Bernard et al., “From nuclear physics to displacement damage calculation and uncertainty propagation in CONRAD,” Results in Physics, 17: 103023, 2020
  30. S. Chen*, D. Bernard, “On the calculation of atomic displacements using damage energy,” Results in Physics, 16: 102835, 2020
  31. S. Chen*, D. Bernard, “Radiation damage calculations for charged particle emission nuclear reactions,” Chinese Journal of Physics, 166: 135-149, 2020
  32. S. Chen*, D. Bernard, “Contribution of fission products to displacement damage in fast reactor fuel cladding,” Annals of Nuclear Energy, 145: 107603, 2020
  33. S. Chen*, D. Bernard, and P. Blaise, “Attenuation of neutron and photon-induced irradiation damage in pressurized water reactor pressure vessels,” Annals of Nuclear Energy, 145: 107601, 2020
  34. S. Chen*, D. Bernard, “On the beta decay-induced radiation damage,” Nuclear Instruments and Methods in Physics Research B, 467: 58–64, 2020
  35. S. Chen, C. Yuan*, “Neutronic study of UO2-BeO fuel with various claddings,” Nuclear Materials and Energy, 22: 100728, 2020
  36. S. Chen, Y. Ge, Y. Zhong, C. Yuan*, “Radial distributions of power and fuel temperature in annular U3Si2 fuel with FeCrAl cladding,” Annals of Nuclear Energy, 135: 106943, 2020
  37. S. Chen, X. He*, C. Yuan*, “Recent studies on potential accident-tolerant fuel-cladding systems in light water reactors,” Nuclear Science and Techniques, 31: 32, 2020
  38. S. Chen*, D. Bernard, “Relativistic effect on two-body reaction inducing atomic displacement,” Journal of Nuclear Materials, 522: 236–245, 2019
  39. S. Chen*, D. Bernard, “Attenuation of atomic displacement damage in the heavy reflector of the PERLE experiment and application to EPR,” Nuclear Engineering and Design, 353: 110205, 2019
  40. S. Chen*, D. Bernard, L. Buiron, “Study on the self-shielding and temperature influences on the neutron irradiation damage calculations in reactors,” Nuclear Engineering and Design, 346: 85–96, 2019
  41. S. Chen*, D. Bernard, P. Tamagno et al., “Calculation and verification of neutron irradiation damage with differential cross sections,” Nuclear Instruments and Methods in Physics Research B, 456: 120–132, 2019
  42. S. Chen*, D. Bernard, C. De Saint Jean, “Calculation and analysis of gamma-induced irradiation damage cross section,” Nuclear Instruments and Methods in Physics Research B, 447: 8–21, 2019
  43. S. Chen*, D. Bernard, “Application of special relativity in damage calculations,” Nuclear Instruments and Methods in Physics Research B, 440: 107–113, 2019
  44. S. Chen, C. Yuan*, “Minor Actinides transmutation in candidate accident tolerant fuel-claddings U3Si2-FeCrAl and U3Si2-SiC,” Annals of Nuclear Energy, 127: 204-214, 2019
  45. S. Chen, C. Yuan*, D. Guo, “Radial distributions of power and isotopic concentrations in candidate accident tolerant fuel U3Si2 and UO2/U3Si2 fuel pins with FeCrAl cladding,” Annals of Nuclear Energy, 124: 460-471, 2019
  46. S. Chen, C. Yuan*, “Transmutation Study of Minor Actinides in Mixed Oxide Fueled Typical Pressurized Water Reactor Assembly,” Journal of Nuclear Engineering and Radiation Science, 4(4): 041017, 2018
  47. S. Chen, C. Yuan*, “Neutronic Analysis on Potential Accident Tolerant Fuel-Cladding Combination U3Si2-FeCrAl,” Science and Technology of Nuclear Installations, 2017: 3146985, 2017

 

會議文章/報告:

  1. T. Wang, S. Chen*, S. Xu, Z. Li, “Discrepancy across various OpenMC versions due to thermal neutron scattering law,” EPJ Web Conf., 302: 07006, 2024
  2. S. Chen*, D. Bernard, “Improvements on the damage calculations using evaluated nuclear data and NJOY,” EPJ Web Conf., 294: 06004, 2024
  3. E. Vandermeersch, S. Chen, S. Xu, P. Tamagno, D. Bernard, P. Blaise, G. Noguere, “From nuclear model parameters to neutronic simulation with the CONRAD and LAST codes”, Consultancy Meeting on model code output & application nuclear data form structure, IAEA, 2021
  4. S. Chen*, D. Bernard, J. Tommasi, and C. De Saint Jean, “Improved Model for Atomic Displacement Calculation,” EPJ Web Conf., 239: 08003, 2020
  5. S. Chen*, D. Bernard, and C. De Saint Jean, “Relativistic Effect on Atomic Displacement Damage for Two-Body Inducing Discrete Reactions,” EPJ Web Conf., 239: 08004, 2020
  6. S. Chen*, G. Noguere, D. Bernard, et al., “PROFIL-2 Experiment and Neutron Capture Cross Sections of Europium Isotopes,” EPJ Web Conf., 239: 01032, 2020
  7. M. Diakaki*, S. Chen*G. Noguere, et al., “Evaluation of neutron induced reactions on 56Fe with CONRAD,” EPJ Web Conf., 239: 11005, 2020
  8. C. De Saint Jean et al., “CONRAD, a code for nuclear data evaluation and more,” in 2019 International Conference on Nuclear Data for Science and Technology(Plenary Session), 2019
  9. S. Chen*, D. Bernard, P. Archier et al., “Covariance Matrices for Differential and Angle-Integrated Neutron-Induced Elastic and Inelastic Scattering Cross Sections of 56Fe,” EPJ Web Conf., 211: 07002, 2019
  10. M. Diakaki, S. Chen, G. Noguere, et al., “Status of the evaluation of n + 56Fe reaction data and experimental validation,” in Consultants’ Meeting on INDEN - International Nuclear Data Evaluation Network - on the Evaluated Nuclear Data of the Structural Materials,IAEA, 2019
  11. S. Chen, P. Tamagno, D. Bernard, and C. De Saint Jean, “Sensitivity and uncertainty analyses of radiation damage cross sections,” in the 9th European Commission Conference on EURATOM Research and Training in Safety of Reactor Systems (FISA 2019), 2019
  12. S. Chen, D. Bernard, and C. De Saint Jean, “Neutron and photon-induced atomic displacement damage,” in JEFF Meeting – Fusion, EFFDOC-1394, OECD/NEA(NuclearEnergyAgency), 2019
  13. M. Diakaki, S. Chen, P. Tamagno, and D. Bernard, “Evaluation of n + 56Fe Reaction Data (+Covariances) and Experimental Validation,” in Consultants’ Meeting on INDEN - International Nuclear Data Evaluation Network - on the Evaluated Nuclear Data of the Structural Materials,IAEA, 2018
  14. S. Chen and C. Yuan*, “Transmutation of Minor Actinides and Power Flattening in PWR MOX Fuel,” in Proceedings of the Reactor Physics Asia 2017 (RPHA17) Conference, 2017
  15. S. Chen, C. Yuan*, J. Wu, and Y. Zou, “Study of Minor Actinides Transmutation in PWR MOX Fuel,” in Proceedings of the 25th International Conference on Nuclear Engineering, 9: V009T15A006, 2017
  16. 王天翔,陳勝利*,李茁*,吳小飛,“基于兩個含鈹系列實驗的CENDL-3.2臨界計算檢驗”,第二十屆反應堆數值計算與粒子輸運學術會議暨2024年反應堆物理會議,哈爾濱,黑龍江,2024年8月27-30日
  17. 陳勝利*,“基于評價核數據的多體核反應中子輻照損傷截面計算”,中國核科學技術進展報告(第七卷),7-12, 2021

 

專利 / 軟件著作權

  1. 陳勝利,陳樹益,發明專利:“一種材料最低離位閾能的確定方法和裝置”,專利號:ZL202410115686.2,授權時間:2024年4月16日
  2. 陳勝利,軟件名稱:“正負電子輻照離位損傷截面計算軟件[簡稱:eDPAXS]”,登記號:2024SR1064508,授權時間:2024年7月25日
  3. 陳勝利,軟件名稱:“基于ENDF核數據的中子輻照損傷截面計算軟件[簡稱:pE2D]”,登記號:2022SR0723395,授權時間:2022年6月9日
  4. 袁岑溪(導師),陳勝利,發明專利:“用于嬗變和展平功率的MOX 燃料組件及展平功率的方法”,專利號:ZL201710193424.8, 授權時間:2019年2月5日
  5. 陳勝利,王天翔,發明專利:“核數據檢驗方法、裝置、電子設備及存儲介質”,申請號:202411519346.2,申請時間:2024年10月29日
  6. 陳勝利,張純禹,王海榮,陳樹益,發明專利:“基于數據降維和蒙特卡羅抽樣的不確定度傳遞方法”,申請號:202510164188.1,申請時間:2025年2月14日