国际/国内会议

[1] Yu-Bai Xiao, Hu Zhang*, Jun-Mei Wu, Experimental Study on the Thermal Properties and Stability of Hybrid Nanofluids and Evaluation of Its Heat Exchange Efficiency[C]. ASME ICONE28-Power 2020, August 2-6, 2020, Los Angeles CA, United States.

[2] Hu Zhang*, Wen-Zhen Fang, Gui-Hua Tang, Thermal conductivity measurement of porous materials: challenges, examples and prospects [C]. Interpore 2019 11th Annual Meeting, May 6-10, 2019, Valencia, Spain.

[3] Chen-Yang Shang, Zhuo-Ran Liu, Hu Zhang*, Xian Wang , Yue-Ming Li, Thermal insulation performance characterization of thermal protection material under large temperature difference and its thermal conductivity identification [C]. 5th International Workshop on Heat/Mass Transfer Advances for Energy Conservation and Pollution Control, August 13-16, 2019, Novosibirsk, Russia.

[4] Hu Zhang*, Xian Wang, Yue-Ming Li, Gui-Hua Tang, Influence of participating Thermal radiation within translucent insulation materials on the thermal conductivity measured by hot strip method [C]. The 7th Asian Symposium on Computational Heat Transfer and Fluid Flow- 2019, September 3-7, 2019, Tokyo, Japan.

[5] Yi-Xin Ma, Hu Zhang*, Xian Wang, Yue-Ming Li, Gui-Hua Tang, A numerical study of the uncertainty analysis of TCi method [C]. The 7th Asian Symposium on Computational Heat Transfer and Fluid Flow- 2019, September 3-7, 2019, Tokyo, Japan.

[6] Chao Zhang, Xian Wang, Hu Zhang, Simulation of natural convection coupling with radiation in a square cavity by lattice boltzmann method [C]. The 7th Asian Symposium on Computational Heat Transfer and Fluid Flow- 2019, September 3-7, 2019, Tokyo, Japan.

[7] Hu Zhang*, Gui-Hua Tang, Wen-Quan Tao, Numerical analyzing the theoretical accuracy of thermal conductivity measured by different methods [C]. The 12th Asian Thermophysical Properties Conference, October 2-6, 2019, Xi’an, China.

[8] Hao Ding, Hu Zhang, Gang Li, Wen-Quan Tao, Experimental comparison of different hot disk sensors on measuring the thermal conductivity of thermal insulation materials [C]. The 12th Asian Thermophysical Properties Conference, October 2-6, 2019, Xi’an, China.

[9] 毋克凡,Pontarit Nuanyai张虎*,唐桂华. 树脂基碳纤维复合材料各向异性导热系数测试与预测[C]. 2019工程热物理学会传热传质会议. 青岛,10.12-142019.

[10] 尚晨阳,刘卓燃,张虎*,唐桂华. 热防护材料大温差隔热性能测试及导热系数辨识[C]. 陕西省宇航学会2019年学术交流会. 宝鸡07.04-062019.

[11] 毋克凡,Pontarit Nuanyai张虎*,唐桂华,树脂基碳纤维复合材料各向异性导热系数测试与预测[C].第二届中国空天推进技术论坛,西宁,8.22-8.242019.

[12] Hu Zhang*, Yixin Ma, Xian Wang, Yueming Li, Wenquan Tao, Influence of radiative heat transfer on measuring thermal conductivity of semi-transparent materials with hot wire method[C]. XI-th International Conference on Computational Heat, Mass and Momentum Transfer (ICCHMT 2018), May 20-24, 2018, Cracow, Poland.

[13] Dan Dan, Chengning Yao, Hu Zhang, Xiaoming Xu, Yangjun Zhang, Numerical analyses on transient thermal behavior of micro heat pipe array-air cooling battery thermal management system[C]. Meeting Abstracts. The Electrochemical Society, 2018 (1): 41.

[14] 马奕新, 张虎*, 王娴, 李跃明, 陶文铨. 一种新型重力热管传热性能测试[C]. 2018工程热物理学会传热传质会议. 哈尔滨, 10.12-14, 2018.

[15] 马奕新, 张虎*, 王娴, 陶文铨. 修正瞬态平面热源法导热系数理论测试精度数值分析[C]. 2018中国第一届热物性会议. 汉中, 10.19-22, 2018.

[16] Hu Zhang*, Yueming Li, Wenquan Tao. Analysis of radiative heat transfer on measuring thermal conductivity of semi-transparent materials using transient plane source method[C]. 4th International Workshop on Heat Transfer, April 2-5, 2017, Las Vegas, NV, USA.

[17] 张虎*, 王娴, 李跃明, 陶文铨. 纤维/遮光剂复合氧化硅气凝胶材料辐射特性及隔热性能实验研究[C]. 2017工程热物理学会传热传质会议论文. 苏州, 10.27-29, 2017.

[18] 张虎*, 李跃明, 李增耀,陶文铨. 瞬态平面热源法测试半透明介质导热系数时辐射传热的影响[C]. 2016工程热物理学会传热传质会议论文. 北京, 10.21-23, 2016.

[19] 庞昊强,张虎,李增耀,陶文铨. 遮光剂和中空玻璃球对SiO2气凝胶复合材料隔热性能影响的实验研究[C]. 2016工程热物理学会传热传质会议论文. 北京, 10.21-23, 2016.

[20] Hu Zhang, Wei Gu, Ming-Jia Li, Zeng-Yao Li, and Wen-Quan Tao. The influence of temperature and humidity environment on the adsorption capacity and thermal insulation performance of silica nano-porous materials. The 4th International Symposium on Micro and Nano Technology, October 8-12, 2013, Shanghai, China.

[21] Hu Zhang, Ming-Jia Li, Wen-Zhen Fang, Dan Dan, Zeng-Yao Li, Wen-Quan, Tao. A numerical study on the thermal conductivity accuracy of thin film specimens using transient plane source method[C]. Asian Symposium on Computational Heat Transfer and Fluid Flow - 2013, June 3−6, 2013, Hong Kong, China.

[22] Hu Zhang, Zeng-Yao Li, Dan Dan, Yun-Han Li, Mu Du, Wen-Quan Tao. Experimental and theoretical studies on the gas thermal conductivity in nano-porous materials[C]. 23rd International Symposium on Transport Phenomena, November 19–22, 2012, Auckland, New Zealand.

[23] Hu Zhang, Yu Jin, Wei Gu, Zeng-Yao Li, Wen-Quan Tao. A numerical study on the influence of insulating layer of the hot disk sensor on the thermal conductivity measuring when using transient plane source method[C]. The Asian Symposium on Computational Heat Transfer and Fluid Flow - 2011, September 22−26, 2011, Kyoto, Japan.

[24] Dan Dan, Hu Zhang, Wen-Quan Tao. Studies on effective model and effective thermal conductivity of aerogels[C]. The Asian Symposium on Computational Heat Transfer and Fluid Flow - 2013, June 3−6, 2013, Hong Kong, China.

[25] Zong-Liang Fan, Hu Zhang, Ming-Jie Li, Wen-Quan Tao. A study on heat transfer characteristics of core-blocked tubes with straight and corrugated longitudinal fin annular space[C]. International Workshop on Heat Transfer Advance for Energy Conservation and Pollution Control. October 17-20, 2011, Xi’an, China.

[26] Wei Gu, Hu Zhang, Zeng-Yao Li, Wen-Quan Tao. Application of maxwell-stefan approach on simulating the mass transport process of humid air in compound silica aerogel[C]. The Asian Symposium on Computational Heat Transfer and Fluid Flow - 2011, 22−26 September 2011, Kyoto, Japan.

[27] 张虎, 谷伟, 李明佳, 丹聃, 李增耀, 陶文铨. 温湿环境对氧化硅气凝胶复合材料吸附、隔热性能的影响规律研究[C]. 2013工程热物理学会传热传质会议论文. 重庆, 10.24-28, 2013.

[28] 张虎, 李增耀, 丹聃, 李云汉, 杜慕, 陶文铨. 纳米多孔材料中气相热导率的影响因素研究[C]. 2012工程热物理学会传热传质会议论文.东莞, 11.24-25, 2012.

[29] 张虎, 谷伟, 李增耀, 陶文铨, 胡子君. 温湿环境对氧化硅纳米多孔材料隔热性能的影响规律研究[C]. 2011工程热物理学会传热传质会议论文. 西安, 10.14-17, 2011.

[30] 张虎, 谷伟, 李增耀, 陶文铨, 胡子君. 氧化硅纳米多孔材料表面水蒸气吸附动力学研究[C]. 力学大会.哈尔滨, 08.22-24, 2011.

[31] 张虎, 谷伟, 李增耀, 张睿, 陶文铨. 表面疏水处理对纳米隔热材料导热系数的影响[C].(北京临近空间飞行器系统工程研究所)基础理论征文. 北京, 2011.

[32] 蔡林, 张虎, 陶文铨, 宁志芳, 赵士虎, 朱洪阳, 李彩侠. 环境气氛对冰箱发泡料隔热性能影响研究[C]. 2014年中国家用电器技术大会论文, 宁波, 11.03-06, 2014.

[33] 蔡林, 张虎, 方文振, 宁志芳, 李林峰, 赵士虎, 朱洪阳, 李彩侠, 陶文铨. 聚氨酯隔热材料导热系数与温度定性关系研究[C]. 第十二届全国电冰箱(柜)、空调器及压缩机学术交流大会, 合肥, 10.17-18, 2014.

[34] 方文振, 张虎, 何雅玲, 陶文铨. 遮光剂对气凝胶复合材料隔热性能的影响[C]. 2013工程热物理学会传热传质会议论文. 重庆, 10.24-28, 2013.

[35] 母玉同, 陈黎, 曹涛峰, 张虎, 陶文铨. 多松弛Boltzmann方法研究间歇性排氢PEMFC阳极电化学反应过程[C]. 2013工程热物理学会传热传质会议论文. 重庆, 10.24-28, 2013.

[36] 李云汉, 尤伟, 李增耀, 张虎, 陶文铨. 大温差下纳米多孔材料隔热性能测试实验方案设计与数值模拟研究[C]. 2012工程热物理学会传热传质会议论文. 东莞, 11.24-25, 2012.

[37] 谷伟, 张虎, 李增耀,张睿,陶文铨. 隔热材料温湿环境的影响机制及控制方法[C].(北京临近空间飞行器系统工程研究所)基础理论征文. 北京, 2011.

[38] 谷伟, 张虎, 李增耀,陶文铨. 多元混合气体在孔道内扩散过程的数值模拟.力学大会[C].哈尔滨, 08.22-24, 2011.

[39] 谷伟,张虎, 李增耀,陶文铨. 多组分传质过程的Maxwell-Stefan方法模拟[C]. 2011工程热物理学会传热传质会议论文. 西安, 10.14-17, 2011.

[40] 金宇, 张虎, 唐桂华,陶文铨. 柱体绕流速度过冲的数值模拟[C]. 2011工程热物理学会传热传质会议论文.西安, 10.14-17, 2011.

[41] 范宗良, 张虎, 陶文铨. 两种平直内翅管流动与换热实验研究[C]. 2010工程热物理学会传热传质会议论文.上海, 10.08-10,2010.

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