2006-2010, Nuclear Science and Engineering, Shanghai Jiao Tong University, Doctor

1998-2001, Nuclear Science and Engineering, Shanghai Jiao Tong University, Master

1994-1998, Nuclear Engineering and Nuclear Technology, Shanghai Jiao Tong University, Bachelor

2004-至今, School of Mechanical Engineering, Shanghai Jiao Tong University

Nuclear Safety
Nuclear Reactor Severe Accident Phenomena Study

2017-2020, National Natural Science Foundation of China, Research on Flow and Migration Mechanism of Hydrogen in Complex Structures Driven by Source Term
2017-2020, National Science and Technology Major Project, Research on Aerosol Washing Characteristic
2015-2019, National Science and Technology Major Project, Research on Hydrogen Flow Distribution Characteristics in Local Compartment
2017-2019, National Science and Technology Major Project, Research on Aerosol Resuspension Characteristics
2013-2015, National Natural Science Foundation of China, Research on Solidification Mechanism and Model of High Temperature Melt under Serious Reactor Accidents
2013-2017, International Thermonuclear Fusion Experimental Reactor (ITER) Program, Safety analysis of large-scale use of lithium as the first wall

Head of International Thermonuclear Fusion Experimental Reactor (ITER) Project, 2009-2012

2010-2012, National Nuclear Safety Administration Nuclear Power Plant Safety Supervision Technical Project, responsible person

 L Tong, X Zhou, X Cao. Ultimate pressure bearing capacity analysis for the prestressed concrete containment. Annals of Nuclear Energy. 121 (2018) 582-593.
 L.L.Tong, Numerical analysis of the dust distribution during LOVA. Annals of Nuclear Energy , 2016, 87: 454-461
 L.L.Tong. Hydrogen risk for advanced PWR under typical severe accidents induced by DVI line break[J]. Annals of Nuclear Energy, 2016, 94:325-331
 L.L.Tong. Assessment for explosion strength of liquid lithium droplet coolant interaction. Journal of Nuclear Science and Technology, 2016, 53(3):432–438
 L.L.Tong, G.F. Huang, X.W.Cao. Simulation of fission products behavior in severe accidents for advanced passive PWR. Annals of Nuclear Energy 76 (2015) 493–503
 L.L.Tong, J.B.Chen, X.W.Cao. Visualization experiments on the geyser boiling-induced instability in vertical circular tube at low-pressures. Annals of Nuclear Energy 77 (2015) 487–497
 L.L.Tong, R.Duan, X.W.Cao. Seismic analysis of RCS with finite element model for advanced PWR. Progress in Nuclear Energy 79 (2015) 142-149.
 L.L.Tong, G.Shao, M.F.Wang, X.W.Cao. Safety evaluation of the modified auxiliary feedwater system for the Chinese improved PWR. Annals of Nuclear Energy 70(2014) 169–174
 L.L.Tong, J.B.Chen, X.W.Cao. Thermal hydraulic behavior under station blackout for CANDU6. Progress in Nuclear Energy 74(2014)176-183
 L.L.Tong, G. Shao, K.Yuan, X.W.Cao. An experimental study on geysering phenomenon induced by buoyancy in a heating system. Annals of Nuclear Energy 63(2014)129-137
 L.L. Tong, L.Q. Hou, X.W. Cao. Study on hydrogen risk induced by dust for fusion device. Journal of Fusion Energy. Journal of Fusion Energy 34(1) (2015) 1-8
 L.L.Tong, Y.B. Li, J.M. Yu. Preliminary analysis of in-vessel first wall cooling pipe ruptures for ITER. Journal of Fusion Energy 34(1) (2015) 29-35
 L.L. Tong, J. Zou, X.W. Cao. Study on heat removal capacity of PCCS during severe accidents for advanced passive PWR. Nuclear Technology 191( 1) (2015) 15-26
 L.L. Tong, L. Fang, X.W. Cao. Thermal hydraulic behaviors during loss of RHR system at mid-loop operation of Chinese 300MWe PWR NPP. Nuclear Engineering and Design, 239(12) (2009) 3027-3033
 G.F. Huang, L.L. Tong, J.X.Li. Study on Mitigation of in-vessel release of fission products in severe accidents of PWR. Nuclear Engineering and Design 240 (11) (2010) 3888-3897
 Qi Zhanfei, Li Jingxi, L.L. Tong, CAO Xuewu. Numerical Simulation of Pressure Drop in Fuel Channel End Fitting，Nuclear Engineering and Design 240 (2010) 3435-3442

Severe Accident Phenomena and Management, undergraduate
Nuclear Reactor Safety, undergraduate