【学术报告】研究生“灵犀学术殿堂”第494期之张铁军副教授报告会通知-西北工业大学
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【学术报告】研究生“灵犀学术殿堂”第494期之张铁军副教授报告会通知
2019-07-12 15:51   党委学生工作部 审核人:   (点击: )

全校师生:

我校定于2019年7月15日举办研究生灵犀学术殿堂——张铁军副教授学术报告会,现将有关事项通知如下:

1.报告会简介

报告人:张铁军副教授

时间:2019年7月15日(星期一)上午9:30-11:30

地点:长安校区动力与能源学院225会议室

主题:开启用于智能能源生产和制造的光质和流体-固体接口的传输潜力

内容简介:

轻物质和流固界面的有效传输是高效能源生产和先进制造的关键。在本次演讲中,张铁军副教授将介绍自己团队的研究成果,通过调整结构化表面的光学和润湿性能来增强界面传输。张铁军副教授团队开发了一种闭环方法,用于高性能能量传输设备的概念设计、制造、表征和直接仿真。通过这种方式,提出了利用自然能源和水资源的新型光谱选择性纳米复合太阳能吸收器、微/纳米工程蒸汽发生器和冷凝器。同时,张铁军副教授团队在微3D打印和功能涂层的数字化微流体技术方面取得了重大进展。张铁军教授团队最近在量子力学模拟方面的突破也使我们能够揭示多相流体和固体界面的复杂输运行为。这些创新工具为加速光热流体传输的知识发现以及为实际应用开发具有成本效益的解决方案铺平了道路。

Effective transport at the light-matter and fluid-solid interfaces are essential for efficient energy production and advanced manufacturing. In this talk, I will present our research findings of enhancing interfacial transport by tailoring optical and wetting properties of structured surfaces. We have developed a closed-loop approach for conceptual design, fabrication, characterization and direct simulation of high-performance energy transport devices. In this way, we have proposed novel spectrally selective nanocomposite solar absorbers, micro/nano-engineered vapor generators and condensers for harnessing natural energy and water resources. Meanwhile, we have made significant advances in micro-3D printing and functional coating towards digital microfluidics. Our recent breakthrough of quantum mechanical simulation also enable us to unveil complicated transport behaviors at the interfaces of multiphase fluids and solid. These innovative tools pave the way for accelerating the knowledge discovery of light-heat-fluid transport and the development of cost-effective solutions to real-world applications.

2.欢迎各学院师生前来听报告。报告会期间请关闭手机或将手机调至静音模式。

党委学生工作部

动力与能源学院

2019年7月11日

报告人简介

张铁军博士,阿拉伯联合酋长国阿布扎比哈利法大学马斯达尔研究所机械与材料工程副教授。他也是阿里巴巴和哈利法大学“智慧能源联合创新实验室”的首席教授。他是美国麻省理工学院(MIT)的客座助理教授,师从MIT机械工程系系主任陈刚教授(美国工程院院士),发表SCI论文130余篇,近年来主持经费1000万美金以上。他指导了超过35名博士/硕士生和博士后研究员以及许多实习生。

张博士是阿联酋国家研究基金会校企合作研究奖和美国国家科学院阿拉伯裔美国前沿奖学金获得者。在过去的几年里,他一直是多个能源和微/纳米技术研究项目(约1000万美元)的首席研究员。张博士在相变传热与微流体、纳米材料合成与添加剂微加工、太阳能发电和制冷冷却、地下多相流和水处理、能源过程动态和智能控制等领域发表了130多篇论文。他是ASME NanoEngineering for Energy and Sustainability Steering Committee、ASME Heat Transfer Division K18 Technical Committee、IEEE、 APS、 ACS、 MRS 和 ISES的活跃成员。

张博士是美国与22个阿拉伯国家(由美国国家科学院组织)举办的第四届阿拉伯 - 美国科学、工程和医学前沿研讨会的联合主席(阿拉伯方)。他也是2018年美国MRS Spring Meeting Symposium EN11 Nanomaterials for the Water and Energy Nexus的联合主席。

Dr. TieJun (TJ) Zhang is an Associate Professor of Mechanical and Materials Engineering at Masdar Institute, Khalifa University in Abu Dhabi, United Arab Emirates. He is also the Principal Scientist leading the Alibaba Cloud-Khalifa University Joint Innovation Laboratory of Artificial Intelligence for Clean Energy. He was a Visiting Assistant Professor at the Massachusetts Institute of Technology (MIT), USA. He has mentored over 35 PhD/MSc students and postdoctoral research fellows as well as many intern students.

Dr. Zhang is the recipient of the UAE National Research Foundation University-Industry Research Collaboration Award and the US National Academy of Sciences Arab-American Frontiers Fellowship Award. In the past few years, he has been the principal investigator of multiple research projects on energy and micro/nanotechnologies (~US$10M). Dr. Zhang has over 130 peer-reviewed publications on phase-change heat transfer and microfluidics, nanomaterials synthesis and additive micro-fabrication, solar power generation and refrigeration cooling, subsurface multiphase flow and water treatment, energy process dynamics and intelligent control. He is an active member of ASME NanoEngineering for Energy and Sustainability Steering Committee, ASME Heat Transfer Division K18 Technical Committee, IEEE, APS, ACS, MRS and ISES.

Dr. Zhang was the co-chair (Arab-side) of the Fourth Arab-American Frontiers of Science, Engineering and Medicine Symposium between USA and 22 Arab countries (organized by the US National Academies). He was also the co-chair of 2018 MRS Spring Meeting Symposium EN11 Nanomaterials for the Water and Energy Nexus in USA.

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