趙旭東 哈爾濱工業大學/建筑學院/兼職教授、博士生導師

 

研究方向：建筑節能 可持續、可再生能源技術 建筑能效技術 綠色建筑

社會兼職：《International Journal of Photoenergy》特輯主編；6本雜志編委；擔任16次國際會議的主席、科技委員會委員；歐盟、英國、法國、葡萄牙、哈薩克斯坦及香港科技委員會項目評委。

‘Energy （SCI 一區）’, ‘Energies （SCI 三區）’, ‘Future Cities and Environment’, ‘Frontiers in Built Environment and Mechanical Engineering’, ‘Heat Exchangers’, ‘Sustainable Cities and Society （SCI 三區）’, ‘Heating, Ventilation and Air Conditioning’ and ‘Chinese Journal of Mechanical Engineering （SCI 三區）’  等8個國際雜志的編委；

‘Applied Energy （SCI 一區）’, ‘International Journal of Photo-energy （SCI 三區）’,  ‘Energies SCI （三區）’, and ‘Frontier of Energy Researches’ 的特輯客座主編；

英國“EPSRC Engineering Prioritization Panel”成員，“World Society of Sustainable Energy Technologies”執行管理委員會委員，“International Conference Series for Sustainable Energy Technologies”執行管理委員會委員，“European District Heating and Cooling Technology Platform”指導委員會委員；

歐盟、英國、法國、葡萄牙、哈薩克斯坦及香港科技委員會委員或項目評委。

 

主要業績：

已發表168篇論文，其中110篇為雜志論文，GOOGLE SCHOLAR引用次數為2093次，高被引論文24篇， i10-index 論文43篇， 被列為‘2017年全球論文引用率最高的學者’之一 （英國工程領域僅5個）。承擔了54項由歐盟、英國政府及其它機構資助的科研項目，累計科研經費約1400萬英鎊（約1.4億人民幣）。承擔了40項面向工業界的技術咨詢項目，累計咨詢費約50萬英鎊（約500萬人民幣）。目前在研項目10項，科研經費合計約250萬英鎊（約2500萬人民幣）， 獲專利10項。

 

專著論文：

部分科研項目：

   1）2015.5-2017.4  Key Technologies for Enhancing Energy Efficiency of the Dew Point Air Cooler and its Manufacturing英國EPSRC（工程及物理研究委員會）及INNOVATE UK (創新英國),中國科技部

2）2014.12-2018.6  Energy Efficient Ventilated Facades for Optimal Adaptability and Heat Exchange enabling novel NZEB architectural concepts for the refurbishment of existing buildings 歐盟科學技術委員會項目

3）2015.3-2017.2  Multiple Factors Engaged Heat Transfer in the Refuge Chambers 英國皇家學會–國際合作交流項目

4）2012.12-2014.11  A Novel BIPV-PCM Heat and Power Cogeneration System for Buildings 歐盟科學技術委員會項目

5）2012.2-2014.2  A Novel Heat Pump Assisted Solar Façade Loop Heat Pipe Water Heating System歐盟科學技術委員會項目

6）2011.9-2015.8  R & D in Sustainable Building Energy Systems and Retrofitting 歐盟科學技術委員會項目

7）2008.10-2010.9  Investigation of a Novel Dew Point Cooling Heat and Mass Exchanger for Air Conditioning of Buildings in Europe 歐盟科學技術委員會項目

8）2006.4-2009.3  Building Energy and Sustainability Research Programme for Office Building in Central London 英國工程與物理科學研究委員會項目

9）2006.12 – 2009.3  Innovative Ventilation/Low Energy Cooling Systems 英國貿工部（現更名為創新英國）項目

10）2009.3 – 2010.2  A novel dew point air conditioning system 中英創新計劃(英國方)項目

部分專著論文：

【1】   Wei He, Xiaoqiang Hong, Xudong Zhao*, Xingxing Zhang, Jinchun Shen, Jie Ji. (2015) Operational performance of a novel heat pump assisted solar façade loop-heat-pipe water heating system. 《Applied Energy》, 146, 371-382.

【2】   Zhongzhu Qiu, Xudong Zhao*, Samira Ali, Peng Li. (2015) Theoretical investigation of the energy performance of a novel MPCM slurry based PV/T module. 《Energy》, 87, 686-698.

【3】   Xingxing Zhang, Xudong Zhao*, Jingchun Shen, Jihuan Xu, Xiaotong Yu. (2014) Dynamic performance of a novel solar photovoltaic/loop-heat-pipe heat pump system. 《Applied Energy》, 114, 335-352.

【4】   Changhong Zhan, Zhiyin Duan, Xudong Zhao*, Stefan Smith, Hong Jin, Saffa Riffat. (2011) Comparative study of the performance of the M-cycle counter-flow and cross-flow heat exchangers for indirect evaporative cooling-Paving the path toward sustainable cooling of buildings. 《Energy》, 36, 6790-6805.

【5】   Z Wang, X. Zhao*. (2012) Dynamic performance of a façade-based solar loop heat pipe water heating system.《Solar Energy》, 86, 1632-1647.

【6】   Xingxing Zhang, Jinchun Shen, Xudong Zhao*, Wei He, etc. (2015) Active solar thermal facades (ASTFs) – from concept, application to research questions. 《Renewable and Sustainable Energy Reviews》, 50, 32-63.

【7】   Xingxing Zhang, Jingchun Shen, Wei He, Peng Xu, Xudong Zhao*. (2015) Comparative study of a novel liquid-vapour separator incorporated gravitational loop heat pipe against the conventional gravitational straight and loop heat pipes – Part II: experimental testing and simulation model validation. 《Energy Conversion and Management》, 93, 228-238.

【8】   Xingxing Zhang, Jingchun Shen, Wei He, Peng Xu, Xudong Zhao*. (2015) Comparative study of a novel liquid-vapour separator incorporated gravitational loop heat pipe against the conventional gravitational straight and loop heat pipes – Part I: conceptual development and theoretical analyses. 《Energy Conversion and Management》, 90, 409-426.

【9】   Xingxing Zhang, Jingchun Shen, Peng Xu, Xudong Zhao*. (2014) Socio-economic performance of a novel solar photovoltaic/loop-heat-pipe heat pump water heating system in three different climatic regions. 《Applied Energy》, 135, 20-34.

【10】 Wei He, Xiaoqiang Hong, Xudong Zhao*. (2014) Theoretical investigation of the thermal performance of a novel solar loop-heat-pipe façade-based heat pump water heating system. 《Energy and Buildings》, 77, 180-191.

【11】 Xingxing Zhang, Xudong Zhao*, Jihuan Xu, Xiaotong Yu. (2013) Characterization of a solar photovoltaic/loop-heat-pipe heat pump water heating system. 《Applied Energy》, 102, 1229-1245.

【12】 Zhiyin Duan, Changhong Zhan, Xingxing Zhang, Mahmud Mustafa, Xudong Zhao*. (2012) Indirect evaporative cooling – past, present and future potentials. 《Renewable & Sustainable Energy Reviews》, 16, 6823-6850.

【13】 X. Zhang, X. Zhao*, S. Smith, J. Xu, X. Yu. (2012) Review of R&D progress and practical application of the solar photovoltaic/thermal (PV/T) technologies. 《Renewable & Sustainable Energy Reviews》, 16, 599-617.

【14】 Changhong Zhan, X Zhao*, Stefan Smith, S. B. Riffat. (2011) Numerical study of a M-cycle cross-flow heat exchanger for indirect evaporative cooling. 《Building and Environment》, 46, 657-668.

【15】 X Zhao*, Z Wang, Q Tang. (2010) Theoretical investigation of the performance of a novel loop heat pipe solar water heating system for use in Beijing, China. 《Applied Thermal Engineering》, 30, 2526-2536.

【16】 X Zhao*, X Zhang, S. B. Riffat, X Su. (2011) Theoretical investigation of a novel PV/e roof module for heat pump operation. 《Energy Conversion and Management》, 52, 603-614.

【17】 X Zhao*, S Yang, Z Duan, S.B.Riffat. (2009) Feasibility study of a novel dew point air conditioning system for China building application. 《Building and Environment》, 44, 1990-1999.

【18】 S Liu, S. B. Riffat, X Zhao*, Y. Yuan. (2009) Impact of adsorbent finishing and absorbent filming on energy exchange efficiency of an air-to-air cellulose fibre heat and mass exchanger. 《Building and Environment》, 44, 1803-1809.

【19】 X. Zhao*, S. Liu, S. B. Riffat. (2008) Comparative study of the heat and mass exchanging materials for the indirect evaporative cooling systems. 《Building and Environment》, 43, 1902-1911.

【20】 X Zhao*, J.M. Li, S. B. Riffat. (2008) Numerical study of a novel counter-flow heat and mass exchanger for dew point evaporative cooling. 《Applied Thermal Engineering》, 28, 1942-1951.

  

部分獲獎

1) 世界可持續能源技術協會創新獎（2016,2017）

2) 2018國際艾尼獎（2018 World Eni-awards）可再生能源領域候選人

3）歐盟龍之星科技創新獎銀獎（2015）

4）英國諾丁漢大學杰出成就獎（2007-2008；2008-2009）

5）英國德蒙福特大學杰出成就獎（2010-2011）

6）2014國際艾尼獎（2014 World Eni-awards）可再生能源領域候選人

7）英國能源利用技術獎候選人（2015）