张大林 - 西安交通大学 - 动力工程多相流国家重点实验室

研究领域

主要研究方向为先进核能系统（熔盐堆、钠冷快堆、行波堆等）物理热工耦合及安全特性研究。

近期论文

查看导师最新文章（温馨提示：请注意重名现象，建议点开原文通过作者单位确认）

1. Zhang DL, Rineiski A, Wang CL, et al. Development of a kinetic model for safety studies of liquid-fuel reactors [J]. Progress in Nuclear Energy, 2015, 81: 104-112. (SCI: CG2FN, EI: 20150500483257, IF: 1.119) 2. Zhang DL, Zheng MY, An HZ, et al. Numerical studies of stepwise radial fuel shuffling in a Traveling Wave Reactor [J]. SCIENCE CHINA Technological Sciences, 2014, 57(6): 1229-1237. (SCI: AI3GQ, EI: 20142817914314, IF: 1.113) 3. Zhang DL, Chen XN, Flad M, et al. Theoretical and numerical studies of TWR based on ESFR core design [J]. Energy Conversion and Management, 2013, 20132516431747, IF: 3.59)72: 12-18. (SCI: 170HO, EI: 4. Zhang DL, Chen XN, Gabrielli F., et al. Numerical studies of axial fuel shuffling [J]. Fusion Science and Technology, 2012, 61: 287-292. (SCI: 883BR, EI: 20121014832580, IF: 0.591) 5. Zhang DL, Chen XN, Gabrielli F., et al. Numerical studies of nuclear traveling waves in a supercritical water cooled fast reactor [J]. Progress in Nuclear Energy, 2011, 53: 806-813. (SCI: 854JE, EI: 20114214438281, IF: 0.879) 6. Zhang DL, Qiu SZ, Su GH, et al. Development of a Safety Analysis Code for Molten Salt Reactors [J]. Nuclear Engineering and Design, 2009, 239(12): 2778-1785. (SCI: 537IN, EI: 20094812501185, IF: 0.952) 7. Zhang DL, Qiu SZ, Su GH, et al. Development of a steady state analysis code for a molten salt reactor [J]. Annals of Nuclear Energy, 2009, 36(5): 590-603. (SCI: 447IS, EI: 20091612040328, IF: 0.96) 8. Zhang DL, Qiu SZ, Su GH, et al. Analysis on the neutron kinetics for a molten salt reactor [J]. Progress in Nuclear Energy, 2009, 51(4-5): 624-636. (SCI: 438QI, EI: 20091412017219, IF: 1.119) 9. Zhang DL, Qiu SZ, Su GH, et al. Steady state investigation on neutronics of a molten salt reactor considering the flow effect of fuel salt [J]. Chinese Physics C, 2008, 32(8): 624-628. (SCI: 337GJ, IF: 1.313) 10. Zhang DL, Qiu SZ, Su GH, et al. Steady thermal hydraulic analysis for a molten salt reactor [J]. Nuclear Science and Techniques, 2008, 19(3): 187-192. (SCI: 344EV, IF: 0.401) 11. Zhou JJ, Zhang DL, Qiu SZ, et al. Three dimensional neutronic/thermal-hydraulic coupled simulation of MSR in transient state condition [J]. Nuclear Engineering and Design, 2015, 282: 93-105. (SCI: CA5PY, EI: 20150200405523, IF: 0.952) 12. Guo ZP, Zhang DL, Xiao Y, et al. Simulations of unprotected loss of heat sink and combination of events accidents for a molten salt reactor [J]. Annals of Nuclear Energy, 2013, 53: 309-319. (SCI: 098LJ, EI: 20141517553855, IF: 1.02) 13. Xiao Y, Zhang DL, Guo ZP, et al. Numerical analysis for a molten salt reactor in the presence of localized perturbations [J]. Progress in Nuclear Energy, 2012, 60: 61-72. (SCI: 000LB, EI: 20123215311336, IF: 0.879) 14. Chen XN, Zhang DL, and Maschek W. Theoretical modeling of radial standing wave reactor [J]. Fusion Science and Technology, 2012, 61: 275-280. (SCI: 883BR, EI: 20121014832578, IF: 0.591) 15. Chen XN, Zhang DL, Maschek W, et al. Solitary breeding/burning waves in a supercritical water cooled fast reactor [J]. Energy Conversion and Management, 2010, 51: 1792-1798. (SCI: 607NP, EI: 20103213134718, IF: 3.59)