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作者
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文章标题
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期刊/会议
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备注
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Ling Kong ; Li Zeng-Yao; Tao, Wen-Quan |
A direct numerical simulation for nucleate boiling by the VOSET method |
Numerical heat transfer part A-applications |
2014,65(10):949-971 |
Wei Chao, Liu Zhao-Jun, Li Zeng-Yao, Qu Zhi-Guo, He Ya-Ling, Tao Wen-Quan |
Numerical study on some improvements in the passive cooling system of a radio base station base on multiscale thermal modeling methodology-part I: confirmation of simplified models |
Numerical heat transfer part A-applications |
2014,65(9):844-862 |
Zhou Wen-Jing, Luan Hui-Bao, He Ya-Ling, Tao Wen-Quan |
A study on boundary force model used in multiscale simulations with non-periodic boundary condition |
Microfluidics and nanofluidics |
2014,16(3):587-595 |
Li Ming-Jie, Zhou Wen-Jing, Zhang Jian-Fei, Fan Ju-Fang, He Ya-Ling, Tao Wen-Quan |
Heat transfer and pressure performance of a plain fin with radiantly arranged winglets around each tube in fin-and-tube heat transfer surface |
International journal of heat and mass transfer |
2014,70:734-744 |
Chen Lei, He Ya-Ling, Tao Wen-Quan |
The temperature effect on the diffusion processes of water and proton in the proton exchange membrane using molecular dynamics simulation |
Numerical heat transfer part A-applications |
2014,65(3):216-228 |
Ji Wen-Tao, Zhao Chuang-Yao, Zhang Ding-Cai, Li Zeng-Yao, He Ya-Ling, Tao Wen-Quan |
Condensation of R134a outside single horizontal titanium, cupronickel (B10 and B30), stainless steel and copper tubes |
International journal of heat and mass transfer |
2014,77:194-201 |
Chen Li, Kang Qin-Jun, Carey Bill, Tao Wen-Quan |
Pore-scale study of diffusion–reaction processes involving dissolution and precipitation using the lattice boltzmann method |
International journal of heat and mass transfer |
2014,75:483-496 |
Chen Li, Kang Qin-Jun, Mu Yu-Tong, He Ya-Ling, Tao Wen-Quan |
A critical review of the pseudopotential multiphase lattice Boltzmann model: methods and applications |
International journal of heat and mass transfer |
2014,76:210-236 |
Zhang Hu, Li Ming-Jia, Fang Wen-Zhen, Dan Dan, Li Zeng-Yao, Tao Wen-Quan |
A numerical study on the theoretical accuracy of film thermal conductivity using transient plane source method |
Applied thermal engineering |
2014,72:62-69 |
Dan Dan, Zhang Hu, Tao Wen-Quan |
Effective structure of aerogels and decomposed contributions of its thermal conductivity |
Applied thermal engineering |
2014,72:2-9 |
Song Chen-Xi, Li Ming-Jia, Wen Zhe-Xi, He Ya-Ling, Tao Wen-Quan, Li Yang-zhe, Wei Xiang-yang, Yin Xiao-lan , Huang Xing |
Research on energy efficiency evaluation based on indicators for industry sectors in China |
Applied energy |
2014,134:550-562 |
Zhang Hu, Gu Wei, Li Ming-jie, Li Zeng-Yao, Hu Zi-Jun, Tao Wen-Quan |
Experimental study on the kinetics of water vapor sorption on the inner surface of silica nano-porous materials |
International journal of heat and mass transfer |
2014,78:947-959 |
He Ya-Ling, Tao Wen-Quan |
Numerical studies on the inherent interrelationship between field synergy principle and entransy dissipation extreme principle for enhancing convective heat transfer |
International journal of heat and mass transfer |
2014,74:196-205 |
Feng Yong-Liang, Tao Wen-Quan |
A compressible thermal Lattice Boltzmann model with factorization symmetry |
Numerical heat transfer part B-fundamentals |
2014,66(6):544-562 |
He Ya-Ling, Tao Wen-Quan |
Chapter three – convective heat transfer enhancement: mechanisms, techniques, and performance evaluation |
Advances in heat transfer |
2014,46:87-186 |
Chen Li, Kang Qin-Jun, Deng Hai-Lin, Carey J.William, Tao Wen-Quan |
Mesoscopic study of the formation of pseudomorphs with presence of chemical fluid |
Geosciences journal |
2014,18(4):469-475 |
Chen Li, Kang Qin-Jun, Viswanathan Hari S, Tao Wen-Quan |
Pore‐scale study of dissolution‐induced changes in hydrologic properties of rocks with binary minerals |
Water resources research |
2014,50(12):9343-9365 |
Wei Chao, Liu Zhao-Jun, Li Zeng-Yao, Qu Zhi-Guo, He Ya-Ling, Tao Wen-Quan |
Numerical Study on Some Improvements in the Passive Cooling System of a Radio Base Station Base on Multiscale Thermal Modeling Methodology-Part II-Results of Multiscale Numerical Simulation and Subsequent Improvements of Cooling Techniques |
Numerical heat transfer part A-applications |
2014,65(9):863-884 |
