饶中浩的主要成果

1. 饶中浩的主要成果

 [1] Zhonghao Rao, Shuangfeng Wang, FeifeiPeng. Molecular dynamics simulations of nano-encapsulated andnanoparticle-enhanced thermal energy storage phase change materials. InternationalJournal of Heat and Mass Transfer, 2013, 66: 575-584.[2] Zhonghao Rao, Shuangfeng Wang, FeifeiPeng. Self diffusion and heat capacity of n-alkanes based phase changematerials: A molecular dynamics study. International Journal of Heat and MassTransfer, 2013, 64: 581-589.[3] Zhonghao Rao, Shuangfeng Wang. A reviewof power battery thermal energy management. Renewable & Sustainable EnergyReviews. 2011, 15(9): 4554-4571.[4] Zhonghao Rao, Shuangfeng Wang, ZhengguoZhang. Energy saving latent heat storage and environmental friendlyhumidity-controlled materials for indoor climate. Renewable & SustainableEnergy Reviews .2012, 16(5): 3136-3145.[5] ZhonghaoRao, Shuangfeng wang, Feifei Peng. Self diffusionof the nano-encapsulated phase change materials: A molecular dynamics study.Applied Energy,2012, 100: 303-308.[6] ZhonghaoRao, Shuangfeng wang, Feifei Peng, Wei Zhang, Yanlai Zhang. Dissipativeparticle dynamics investigation of microencapsulated thermal energy storagephase change materials. Energy, 2012, 44(1): 805-812.[7] ZhonghaoRao, Shuangfeng Wang, Maochun Wu, Zirong Lin, Fuhuo Li. Experimentalinvestigation on thermal management of electric vehicle battery with heat pipe.Energy Conversion and Management, 2013, 65: 92-97.[8] Zhonghao Rao,Shuangfeng Wang, Maochun Wu, Yanlai Zhang, Fuhuo Li. Moleculardynamics simulations of melting behavior of alkane as phase change materialsslurry. Energy Conversion and Management,2012, 64: 152-156.[9] ZhonghaoRao, Shuangfeng Wang, Guoqing Zhang. Simulation and experiment of thermalenergy management with phase change material for ageing LiFePO4 power battery.Energy Conversion and Management. 2011, 52(12):3408-3414.[10] ZhonghaoRao, Yanlai Zhang, Shuangfeng Wang. Energy saving of Power Battery byLiquid Single-phase Convective Heat Transfer. Energy Education Science &Technology, Part: A Energy Science and Research, 2012, 30(1): 103-112.[11] Zhonghao Rao, Shuangfeng Wang, Yanlai Zhang. Molecular dynamicssimulations of phase transition of n-nonadecane under high pressure. PhaseTransitions, 2012, 85(5): 400-408. (SCI)[12] Z.H. Rao, S. F. Wang, Y. L. Zhang. Simulation of heat dissipation with phasechange material for cylindrical power battery. Journal of the Energy Institute,2012, 85(1): 38-43.[13] RaoZhong-Hao, Wang Shuang-Feng, Zhang Yan-Lai, Peng Fei-Fei, Cai Song-Heng. MolecularDynamics Simulation of the Thermophysical Properties of Phase Change Material, ActaPhysica Sinica. 2013, 62(5): 056601.[14] Z.H. RAO, S. F. WANG, Y. L. ZHANG. Thermal management with phase changematerial for power battery under cold temperature. Energy Sources, Part A: Recovery,Utilization, and Environmental Effects.2011, DOI:10.1080/15567036.2011.576411.[15] Z.H. RAO, S. F. WANG, Y. L. ZHANG., G.Q. ZHANG, J.Y. ZHANG. Thermalproperties of paraffin/nano-AlN phase change energy storage materials. EnergySources, Part A: Recovery, Utilization, and Environmental Effects. 2011, DOI:10.1080/15567036.2011.590869.[16] Z.H.Rao, G.Q. Zhang. Thermal properties of paraffin wax based compositescontaining graphite. Energy Sources, Part A: Recovery, Utilization, andEnvironmental Effects, 2011, 33(7):587-593.[17]Jin Huang, Tingyu Wang, Changhong Wang, Zhonghao Rao*. Exfoliated Graphite/Paraffin Nanocomposites as PhaseChange Materials for Thermal Energy Storage Application. Materials ResearchInnovations, 2011, 15 (6):422-427.[18] J. HUANG, T.Y. WANG, C.H. WANG, Z.H. RAO*. Molecular dynamicssimulations of melting behaviour of n-hexacosane as phase change material forthermal energy storage. Asian Journal of Chemistry, 2013, 25(4): 1839-1841.[19] Yanlai Zhang,Zhonghao Rao, Shuangfeng Wang, ZhaoZhang, Xiuping Li. Experimental evaluation on natural convection heat transferof microencapsulated phase change materials slurry in a rectangular heatstorage tank. Energy Conversion and Management, 2012, 59: 33-39.[20] Yanlai Zhang, Shuangfeng Wang, Zhonghao Rao, JiefeiXie. Experiment onheat storage characteristic of microencapsulated phase change material slurry.Solar Energy Materials & Solar Cells. 2011, 95(10): 2726–2733.[21] Z. H. Rao, G. Q. Zhang, Z.J. Wu. Thermal properties of paraffin/graphite composite phase change materialsin battery thermal management system. Energy Materials: Materials Science andEngineering for Energy Systems. 2009, 4(3):141-144.[22] Z.H. RAO,S.F. WANG, F.H. LI. Molecular dynamics simulations and dissipative particledynamics study of phase change material, 10th IIR Conference on Phase-ChangeMaterials and Slurries for Refrigeration and Air Conditioning, 2012, 07.29-08.01,Kobe University, Kobe, Japan. (Oral Presentation)[23] 饶中浩,汪双凤,洪思慧,巫茂春. 电动汽车动力电池热管理实验与数值分析. 工程热物理学报, 2013,34(6):1-4.[24] 张国庆,饶中浩,吴忠杰,傅李鹏.采用相变材料冷却的动力电池组的散热性能.化工进展，2009,28(1):23-26.[25] 张国庆,饶中浩,吴忠杰,陈贻波,潘华耿. 光催化技术对工业循环冷却水微生物灭活实验.工业水处理,2010,30(10):56-59. [1] 张国庆,黄锌鹏,饶中浩. 一种圆柱型动力电池材料产热量测量装置, ZL, 2012.01.18.[2] 张国庆,吴忠杰,傅李鹏,饶中浩,杨承昭.一种使用超声波防垢除垢的光催化反应装置, ZL, 2011.09.07.[3] 汪双凤,饶中浩,陈锦芳,胡艳鑫等. 一种用于锂电池散热的微通道冷却均温系统, ZL, 2013.02.20.[4] 汪双凤,饶中浩,张艳来. 一种基于分离式脉动热管的动力电池散热装置, ZL8, 2012. 02.22.[5] 汪双凤,饶中浩,张艳来,霍杰鹏,陈锦芳. 一种具有散热装置的被动式动力电池, ZL,2011. 12.28.[6] 汪双凤,饶中浩,张艳来. 一种相变材料热管耦合散热动力电池组, ZL, 2011.12.07.[7] 汪双凤,饶中浩,张艳来. 一种具有散热装置的电动汽车动力电池组, ZL, 2011.12.07.[8] 汪双凤,饶中浩,陈锦芳,张艳来,霍杰鹏. 一种铅直平面振荡流热管电池散热模块, ZL,2011.12.07.[9] 汪双凤,张维,霍杰鹏,饶中浩,陈锦芳,胡艳鑫. 一种面向高功率LED的环路型散热装置, ZL, 2013.03.06.[10] 汪双凤,霍杰鹏,罗婉霞,饶中浩,林梓荣等. 一种高功率LED的散热装置, ZL, 2013.02.20.[11] 饶中浩,吴忠杰,张国庆.一种带有相变材料冷却系统的动力电池装置, ZL, 2010.05.05.[12] 张国庆,饶中浩. 一种高效散热电动汽车电池装置, ZL, 2010.05.05.[13] 张国庆,黄锌鹏,饶中浩. 圆柱型动力电池材料产热量测量装置, ZL, 2010.11.17.[14] 王长宏,林涛,陶肖生,饶中浩,黄金. 太阳能温差发电装置, ZL, 2012.07.25.[15] 张江云,王长宏,张国庆,饶中浩,袁韩生,张磊. 具有强化散热功能的管壳式电动汽车电池装置, ZL, 2011.11.23.[16] 张国庆,吴忠杰,傅李鹏,饶中浩,杨承昭.使用超声波防垢除垢的光催化反应装置, ZL, 2010.05.26.[17] 张国庆,张云云,熊中琼,张文静,饶中浩. 基于泡沫金属/复合相变材料的动力电池冷却系统, ZL, 2012.08.15.