期刊论文: 1. Dong F, Wan J, Feng Y, Wang Z, Ni J. Experimental Study on Thermophysical Properties of Propylene Glycol-Based Graphene Nanofluids. Int J Thermophys 2021; 42: 1–18. 2. Dong, F, et al. Investigation and optimization on cooling performance of a novel double helix structure for cylindrical lithium-ion batteries. Applied Thermal Engineering 2021; 189: 116758. 3. Dong F, Wang ZM, Ni J. The effect of different coolants on emissions and fuel consumption of a diesel engine. J Brazilian Soc Mech Sci Eng 2020; 42: 1–10. 4. Dong F, Wang Z, Cao T, Ni J. A novel interphase mass transfer model toward the VOF simulation of subcooled flow boiling. Numer Heat Transf Part A Appl 2019; 76: 220–31. 5. Dong F, Hou L, Xu Z, Cao T. Simulation of Subcooled Flow Boiling on Engine Cooling Jacket with a Bubble Waiting Time Coefficient Model. SAE Tech Pap 2017; 2017-March. 6. Dong F, Hou L, Jiang L, Cao T, Ni J. Simulation of subcooled flow boiling with an SVR based interphase mass transfer model. Appl Therm Eng 2017; 116: 840–9. 7. Dong F , Cao T , Hou L , et al. Optimization study of artificial cavities on subcooled flow boiling performance of water in a horizontal simulated engine cooling passage. Journal of Enhanced Heat Transfer. 2018; 26(1):. 8. Dong F , Song D , Ni J . Investigation of the effect of U-shaped mini-channel structure on the thermal performance of liquid-cooled prismatic batteries. Numerical Heat Transfer Applications. 2019; 77(1): 1-16. 9. 董非,苑天林,王志明,倪捷. 无水丙二醇冷却液对柴油机性能影响的试验. 内燃机学报,2021,39(01): 81-87. 10. 董非, 苑天林, 武志伟等. 基于RPI模型的内燃机冷却水腔内数值模拟研究. 化工学报. 2019; 70(S2) :259-266. 11. 董非, 殷振中, 武志伟等. 基于压力波动的内燃机典型工况过冷沸腾起始点的模拟. 内燃机学报. 2019; 37(5): 66-73. 12. 董非, 张朝烛, 龚伟等. 缸盖鼻梁区水腔内沸腾气泡演化行为试验. 内燃机学报. 2018; 36(3): 252-257. 13. 董非, 侯刘闻迪, 龚伟等. 激冷项修正系数对冷却水腔沸腾换热的敏感性. 内燃机学报. 2017; 35(1): 84-88. 14. 董非, 龚伟, 张威望等. 内燃机缸盖水腔内汽液流动可视化与传热试验. 内燃机学报. 2015; 33(5): 466-471. 15. Dong F , Hou L , Xu Z , et al. Simulation of Subcooled Flow Boiling on Engine Cooling Jacket with a Bubble Waiting Time Coefficient Model, WCX 17: SAE World Congress Experience. 2017. |