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      西安交通大學絲路聯盟-能源子聯盟-線上年會
      發布時間:2021-11-17 14:26:42 點擊量:

       

      在2021年絲綢之路大學聯盟活動框架下,將于2021年11月18日舉行以《儲能與節能》為主題的2021年絲綢之路大學聯盟能源分聯盟年會,會議將在ZOOM平臺線上進行,邀請國際儲能與節能領域4位青年領軍學者做報告,探討最新的研究進展。

      會議信息:

      Zoom number: 764 324 2886

      Pass: 20211118

      本次會議由西安交通大學能源分聯盟、絲綢之路大學聯盟、西安交通大學能源與動力工程學院、西安交通大學學科創新海外人才引進項目主辦,熱流科學與工程教育部重點實驗室、熱科學與工程國際合作聯合研究實驗室及能源與環境工程中的熱質傳遞國際聯合研究中心承辦。具體情況如下:

      為適應國家節能減排和前沿科學發展的重要需求,2010年11月,教育部熱流體科學與工程重點實驗室正式獲批籌建。本實驗室旨在對能源運輸和利用過程中產生的基礎科學問題進行一系列前瞻性和戰略性的系統研究。實驗室的研究活動主要集中在五個方面:傳熱傳質機理和技術;流體熱物理特性及新型節能環保工作流體流動與傳熱的多尺度數值模擬新能源、節能技術。實驗室將全面跨學科創新領域的研究中心和一個基地能源運輸和利用率,流體力學課程的教學中心,熱力學和熱傳遞,教育人才中心的能源和電力工程。實驗室的研究具有基礎性、綜合性和國際性的特點,注重學科交叉。實驗室的文化是:創新、和諧、開放。實驗室現有專任教師55人,其中教授30人,副教授19人。其中中國科學院院士2人,全國優秀教師3人,全國有突出貢獻專家1人,百萬人計劃領軍人才2人,長江學者2人,長江青年學者2人,國家自然科學基金優秀青年7人,國家新世紀人才工程1人,“千人”青年英才3人,教育部跨世紀、新世紀優秀人才18人,全國百篇優秀博士論文作者3人,西安交通大學騰飛工程特聘教授8人?,F有研究生200余人,博士后科研流動站數名。是一個年齡結構適宜、研究能力強、具有國際影響力的研究團隊。

      西安交通大學熱科學與工程國際合作聯合實驗室(IJRL-TSE)由西安交通大學與國外幾所著名大學和學術機構組成,包括明尼蘇達大學的傳熱實驗室(主任為Terrence W. Simon教授)和粒子技術實驗室(主任為美國工程院院士David Y. H. Pui教授)、英國愛丁堡大學Jason Reese (美國物理學會會員)、美國洛斯阿拉莫斯國家實驗室地球與環境科學部高級科學家Qinjun Kang教授、瑞典隆德大學Bengt Sundén教授\美國亞利桑那大學Peiwen Li教授、美國內華達大學拉斯維加斯分校Yitung Chen教授\英國諾丁漢大學Shuguang Li教授\韓國釜山大學Man Yeong Ha教授等,上述院校和團隊的研究在能源與環境科學與工程領域均位于國際領先水平。

      會議議程如下:

      Theme:   Energy storage and saving

      Zoom number: 764 324 2886 (Pass:   20211118)

      Time

      Content

      Chair

      14.00–14:10

      Opening   Ceremony

      Prof. Qiuwang Wang

      14:10–14:40

      Title: 2D Pseudocapacitive Nanomaterials for High Energy- and High   Power-Oriented Applications of Supercapacitors

      Speaker: Dr. Ho-Seok Park, Sungkyunkwan   University

      Prof.  

      Qiuwang   Wang

      14:40–15:10

      Title: Microencapsulation of phase change materials for cold energy   storage applications

      Speaker: Dr. Yongliang Li, University   of Birmingham

      15:10–15.40

      Title: Study and application of energy storage technology in the new   generation distributed system

      Speaker: Dr. Mingjia Li, XI’an   Jiaotong University

      15:40-16:10

      Title: State of the art and research directions for cold thermal energy   storage (CTES) materials at sub-zero temperatures

      Speaker: Dr. Lizhong Yang, Nanyang   Technological University

      16:10–16:30

      Introduction to international journal: Energy storage and saving

       

                                                 

        Dr. Ho Seok Park

      Sungkyunkwan University

      Ho Seok Park is a professor of Chemical Engineering at the Sungkyunkwan University (SKKU), an adjunct professor at the Samsung Advanced Institute for Health Science & Technology (SAIHST), and a director of research center for 2D Redox Energy Storage (2DRES). He received his Ph.D. from Korea Advanced Institute of Science & Technology (KAIST) in 2008 and worked as a Postdoctoral Researcher in the Department of Biological Engineering at Massachusetts Institute of Technology (MIT) from 2008 to 2010. His current research interests focus on energy storage and conversion based on 2D and carbon nanomaterials. He has published >220 peer-reviewed papers in the top journals and being taking associate editor, editorial board member, and guest editor in the SCI(E) journals of “Advanced Functional Materials”, “InfoMat”, “Energy Storage & Saving”, “Batteries & Supercaps”, “Carbon Letters”, and “Macromolecular Research”.
      Title

      2D Pseudocapacitive Nanomaterials for High Energy- and High Power-Oriented Applications of Supercapacitors 

      Abstract

      Supercapacitors (SCs) are an electrochemical energy storage device that can fill the gap between batteries and electrolytic capacitors. However, the widespread applications of commercialized carbon-based SCs are limited by their energy density, arising from their physical charge storage mechanism, which is by far lower than that of batteries. Moreover, the high-power applications of SCs are also limited by the slower kinetics than electrolytic capacitor due to the diffusion and distribution of ions onto the tortuous porous surface. In this talk, I will introduce our recent progress on the rational design of 2D pseudocapacitive materials for high energy- and high power-oriented SCs applications.1 Firstly, I will address our contribution to the improvement of pseudo-capacitance by the molecular level surface redox sites of 2D pseudocapacitive nanomaterials such as P-doped graphene and black phosphorus.2,3 In addition to energy aspect, we will focus on the kinetics feature of 2D MXenes, correlating with the multiscale structure and chemistry for ultrahigh power and high frequency response.4

       

      References

      [1] Puritut Nakhanivej, Qingyun Dou, Peixun Xiong, Ho Seok Park, “Two-Dimensional Pseudocapacitive Nanomaterials for High-Energy and High-Power-Oriented Applications of Supercapacitors”, Acc. Mater. Res., 2, 86–96 (2021).

      [2] Puritut Nakhanivej, Xu Yu, Sul Ki Park, Soo Kim, Jin Yong Hong, Hae Jin Kim, Wonki Lee, Jun Yeon Hwang, Ji Eun Yang, Chris Wolverton, Jing Kong, Manish Chhowalla, Ho Seok Park, “Revealing Molecular-Level Surface Redox Sites of Controllably Oxidized Black Phosphorus Nanosheets”, Nat. Mater., 18, 156–162 (2019).

      [3] Xu Yu, Hae Jin Kim, Jin-Yong Hong, Young Mee Jung, Kideok D. Kwon, Jing Kong, Ho Seok Park, “Elucidating surface redox charge storage of phosphorus-incorporated graphenes with hierarchical architectures”, Nano Energy, 15, 576–586 (2015).

      [4] Girish Sambhaji Gund, Jeong Hee Park, Rana Harpalsinh, Manikantan Kota, Joo Hwan Shin, Tae-il Kim, Yury Gogotsi, Ho Seok Park, “MXene/Polymer Hybrid Materials for Flexible AC Filtering Electrochemical Capacitors”, Joule, 3, 1–13 (2019).


       

      Dr. Yongliang Li

      University of Birmingham

      Professor Yongliang Li is a Chair of Thermal Energy Engineering in the School of Chemical Engineering and the Birmingham Centre for Energy Storage at the University of Birmingham, UK. His research focuses on thermal energy conversion, storage, and thermal management. He is leading several grant challenge projects on thermal energy storage and heating/cooling decarbonisation funded by UKRI and he is also the coordinator of an EC funded RISE project to developing low-carbon cooling technology in collaboration with 17 international partners. He has published 100+ peer reviewed articles with a h-index of 32. He has won several prestigious awards including the Dorothy Hodgkin Award, the CSC Award, and the Collaborative Development Award for his academic achievements.   

      Title

      Microencapsulation of phase change materials for cold energy storage applications

      Abstract

      The ability of thermal energy storage (TES) systems to facilitate energy savings, renewable energy use and reduce environmental impact has led to a recent resurgence in their interest. However, the cold thermal storage is still the Cinderella in thermal energy storage, receiving little attention in the energy debate so far, although it can play a vital role in the cold chain foundation. The microencapsulation of phase change materials was turned to be a viable technique for cold thermal storage. In this presentation I will discuss our work on the microencapsulation of volatile phase change materials, covering both the formulation process and mechanism, as well as the thermal and theological behaviors of the MPCMS and its slurry.


       


      Dr. Mingjia Li

      Xi’an Jiaotong University

       

      Dr. Ming-Jia Li is a professor of School of Energy and Power Engineering, Xi’an Jiaotong University. She was awarded international awards and national awards such as Asian Young Scientist Award, National Young Top-notch Talents Program, Thousand Talents Program of Shannxi Province, Outstanding Young Investigator Award in Shannxi Province, National Innovative Talents Support Plan of China Postdoctoral Foundation, Outstanding Doctoral Dissertation of Shaanxi Province, and First Prize of Provincial Natural Science Award etc. She serves as the associate editor of journal of Applied Thermal Engineering. She is also, amounts other, on the editorial boards of other 4 international journals, the reviewers for numerous international journals, and the secretary general of International Conference on Supercritical CO2 Power System.

       

      She was granted her bachelor degree from University of Liverpool (U.K) and master degree from University of Nottingham (U.K.). She obtained the doctoral degree from Xi’an Jiaotong University with the joint program cooperated by Columbia University (U.S).

       

      She mainly focuses on Energy-saving theories & new methods in efficient energy utilization, Supercritical CO2 power system and Biomass carbon sequestration. As a principle investigator, she hosts some national research programs, eg. the Key Project of National Science Foundation of China-subtopics, National Science Foundation of China etc. She published many journal papers in top international journals with the h-index of 34. Among them, 13 papers are selected in Essential Science Indicators (1% top). She has 26 patents of invention and 7 software copyrights. She also delivered more than 10 plenary / invited talks and served as session chairs in international conferences.

       

       

       


      Tittle

      Study and application of energy storage technology in the new generation distributed system

       

      Abstract

      Energy storage system is a key player in the renewable energy market based on the objectives of carbon neutrality. It presents the important role of peak load shifting in the new generation distributed system with the characteristics of “Source-Network-Load-Storage”. The purpose of this study is to assist to realize the efficient, stable and economical operation of the new distributed system. In this study, some dominant technologies of storage material and storage structure are analyzed. Besides that, the dynamic response characteristics of the power generation frequency and efficiency of the energy storage system with a microgrid real-time load are studied.


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