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Tengfei Zhang
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[1]Tengfei Zhang. Transient coupling analysis of loss-of-coolant accidents in HTR-PM based on CFD approaches ANNALS OF NUCLEAR ENERGY, 2022,
[2]Tengfei Zhang. Preliminary lightweight core design analysis of a micro-transportable gas-cooled thermal reactor INTERNATIONAL JOURNAL OF ENERGY RESEARCH, 2022,
[3]Tengfei Zhang. Preliminary conceptual design of a moderated micro nuclear reactor core cooled by heat pipe ANNALS OF NUCLEAR ENERGY, 2022,
[4] VITAS: A multi-purpose simulation code for the solution of neutron transport problems based on variational nodal methods ANNALS OF NUCLEAR ENERGY, 2022,
[5]Tengfei Zhang. Theory and application of the functional expansion fission matrix Annals of Nuclear Energy, 2022,
[6] Editorial: Reactor Physics: Methods and Applications FRONTIERS IN ENERGY RESEARCH, 2022,
[7] Variational nodal methods for neutron transport: 40 years in review Nuclear Engineering and Technology, 2022,
[8]Tengfei Zhang. Conceptual design and thermal-hydraulic analysis of a megawatt-level lead-bismuth cooling reactor for deep-sea exploration PROGRESS IN NUCLEAR ENERGY, 2022,
[9] Application of stiffness confinement method within variational nodal method for solving time-dependent neutron transport equation Computer Physics Communications, 2022,
[10]Tengfei Zhang. A quasi-transport integral variational nodal method for homogeneous nodes based on the 2D/1D method COMPUTER PHYSICS COMMUNICATIONS, 2022,
[11]Tengfei Zhang. A quasi-transport integral variational nodal method for homogeneous nodes based on the 2D-1D method Computer Physics Communications, 2022,
[12] High-fidelity multi-physics coupling study on advanced heat pipe reactor Computer Physics Communications, 2022,
[13] Preliminary Research on a Multi-Physics Coupling Platform for Heat Pipe Reactors Hedongli Gongcheng/Nuclear Power Engineering, 2021,
[14] Conceptual Design of a Reduced Moderation Long-Life Heavy Water Cooled Thorium Small Modular Reactor Hedongli Gongcheng/Nuclear Power Engineering, 2021,
[15]Tengfei Zhang. Optimal Batch Size Growth for Wielandt Method and Superhistory Method Nuclear Science and Engineering, 2021,
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