折晓会，男，教授，博导，2023-2024年连续入选全球前2％顶尖科学家榜单（World's Top 2% Scientists），河北省级特聘专家，河北省科协会士。担任河北省新型储能国际联合研究中心主任、河北省储能产业技术研究院秘书长、国家能源多模式工业储能技术研发中心学术委员会委员。

折晓会博士1987年出生于河北石家庄；2016年博士毕业于东南大学；2013-2015年，美国威斯康星大学麦迪逊校区博士联合培养；2016-2018年，英国伯明翰大学进行博士后研究；2018-2021年，英国伯明翰大学化工学院助理教授；2021年-至今，石家庄铁道大学教授。主要从事大规模可再生能源存储，包括液态空气储能、相变储能、氢氨储能等研究。自2016年折晓会博士围绕全球首个350kW/2.5MWh液态空气储能电站（英国伯明翰），开展了从分子到系统的跨尺度研究。2017年发明液态空气储能热电联供技术，2022年发明液态空气储能四联供技术。基于前期液态空气储能的研究工作，2023年成功揭榜河北省科技厅揭榜挂帅重大项目“液态空气储能系统高效发电关键技术”，该项目旨在研制国内首套兆瓦级液态空气储能示范电站，并于2024年9月完成并网发电，填补国内空白，为液态空气储能商业电站的建设奠定基础。

折晓会博士至今指导5名博士生、8名硕士生；在国际顶级期刊Advanced Functional Materials、Chemical Engineering Journal、Renewable andSustainable Energy Reviews、Applied Energy、Energy Conversion and Management等发表SCI期刊论文60余篇，能源领域顶级期刊论文20余篇（影响因子>10），谷歌引用2900余次；申请/授权国家专利30余项；参编4本储能专著；担任3个国际期刊编委：Frontiers in Energy Research（SCI期刊，副主编）、Nexus（青年编委）、Energy and Built Environment（EI期刊，青年编委）；在国际/全国储能会议上做特邀报告、担任分会场主席20余次。主持河北省揭榜挂帅、河北省重大科技专项、河北省百人等科研项目10余项，项目经费超过1500万。

部分专著和论文列表如下：

Parts of Books

1.    Xiaohui She, Tongtong Zhang, Yuanye Meng, Ting Liang, Xiaodong Peng, Lige Tong, LiWang, Yongliang Li, Yulong Ding*. Chapter Cryogenic Energy Storage, Encyclopediaof Energy Storage, Elsevier 2021, https://doi.org/10.1016/B978-0-12-819723-3.00091-3

2.    Qinghua Yu, Tongtong Zhang, XiaodongPeng, Lin Cong, Lige Tong, Li Wang, Xiaohui She, Xiaosong Zhang,Xinjing Zhang, Yongliang Li, Haisheng Chen, Yulong Ding. Chapter 8: Cryogenicenergy storage and its integration with nuclear power generation for loadshift, 2019 249-273, Storage and Hybridization of Nuclear Energy, AcademicPress (ISBN: 978-0-12-813975-2), Editors: Hitesh Bindra and Shripad Revankar, 300pages

3.    BrittneyBecker, Myriam Elisa Gil Bardají, Jean-Michel Durand, Patrick Clerens, MathiasNoe, Xiaohui She, et al. European Energy StorageTechnology Development Roadmap 2017 update, EASE/EERA,Editor: Michela Bortolotti, Contributor for Liquid Air Energy Storage in Chapter 6.4 MechanicalEnergy Storage. (128 pages)

Journal Papers

1.    Xingyu Wang, Chen Wang, Ying Xu, Ziao Zhang, Peng Han, Yongliang Li, XiaohuiShe*. Thermodynamic analysis of a novel multi-layer packed bed coldenergy storage with low exergy loss for liquid air energy storage system. Renewable Energy, 240 (2025) 122271. (SCI, I.F. 9.0)

2.    Gesang Yang, Mingxi Ji, Yuhong Huang, Xiaohui She, YimoLuo, Liming Wang, Lexiao Wang. Characterization and performance analysis ofSrCl2 impregnated activated alumina composites for solar thermal energy storage.SolarEnergy Materials and Solar Cells 282 (2025) 113385.

3.    Fei Han, Yuhong Huang, Changsheng Hao, Xuemin Zhao, Fei Gao, CamilaBarreneche, Xiaohui She*. A novel radial flow adsorber withuniform velocity distribution for air purification in liquid air energy storage,Renewable Energy 240 (2025) 122197 (SCI, I.F. 9.0)

5.   Xiaohui She, Xingyu Wang, Peng Han, Yongliang Li, Chen Wang*. Enhancement ofefficiencies of cryogenic energy storage packed bed using a novelReferred-Standard-Volume optimization method. International Journal of Heat and Mass Transfer, 2024 (SCI, I.F. 5.2)

6.   Changsheng Hao, Guosheng Feng, Changjie Ma, Camila Barreneche, XiaohuiShe*. Performance analysis of a novel multi-module columnar packed bedreactor with salt hydrates for thermochemical heat storage. Journal ofEnergy Storage 86 (2024) 111170, (I.F. 9.4)

7.    Zhanping You, Menghan Cheng, Changjie Ma, Yufei Xiao, Xuemin Zhao,Camila Barreneche, Xiaohui She*. Molecular dynamics simulation oftemperature and concentration distribution at liquid-gas interface duringliquid air storage process. Energy and Built Environment 2024, accept. (EI)

8.    Zhaofeng Dai, Xiaohui She, Chen Wang, Yulong Ding, Yongliang Li,Xiaosong Zhang, Dongliang Zhao. Dynamic simulation and performance analysis ofa solid-state barocaloric refrigeration system. Energy 294 (2024) 130800 (I.F. 9).

9.    Zhaofeng Dai, Guiling Zhang, Yufei Xiao, Yulong Ding, Yongliang Li, XiaohuiShe*, Xiaosong Zhang*, Dongliang Zhao*. High-Directional ThermallyConductive Stearic Acid/Expanded Graphite - Graphene Films for EfficientPhotothermal Energy Storage. Chemical Engineering Journal 484 (2024)149203 (I.F. 15)

10.  Ting Liang, Xiaohui She, Yongliang Li, Tongtong Zhang, YulongDing. Thermo-economic multi-objective optimization of the liquid air energystorage system. Journal of Energy Storage 84 (2024) 110756 (I.F. 9.4)

11.   P Han, H Wang, J Fan, T Li, X She, X Zhao. The localnon-equilibrium heat transfer in phase change materials embedded in porousskeleton for thermal energy storage. Journal of Energy Storage 82 (2024) 110450(I.F. 9.4)

12.   Zongyao Kang, Bin Liu, Xiaohui She, Wei Liu, JingzhongHuang, Kaihui Wang. Parametric analysis of a modifiedammonia-hydrogen-electricity cogeneration system. International Journal of Hydrogen Energy 56 (2024) 219–231 (I.F.7.2)

13.    Z Dai, B Shao, Q Chen, Y Ding, Y Li, M Zhang, E Yin, Xiaohui She*,X Zhang*, D Zhao*. Synergistic Advancement of Molecular Design and DualEncapsulation Technology for High-Performance Room-Temperature BarocaloricRefrigeration Materials. Advanced Functional Materials. 2023, 33, 2307822.(I.F. 19)

14.  K Su, H Du, X Zhao, XWang, X Zhang, Y Lu, Xiaohui She, C Wang. Tech-economic analysisof liquid air energy storage-A promising role for carbon neutrality in China, Journal ofEnergy Storage72, 108786. (I.F. 9.4)

15.  Z Dai, XiaohuiShe, B Shao, E Yin, Y Ding, Y Li, X Zhang, D Zhao. Plastic crystalneopentyl glycol/multiwall carbon nanotubes composites for highly efficientbarocaloric refrigeration system. Journal of Thermal Science. 2023, 1-11.(I.F. 2.5)

16.  Z Dai, Y Gao, C Wang,D Wu, Z Jiang, Xiaohui She, Y Ding, X Zhang, D Zhao. OrientedHigh Thermal Conductivity Solid–Solid Phase Change Materials forMid-Temperature Solar-Thermal Energy Storage. ACS Applied Materials & Interfaces, 2023. (I.F. 9.5)

17.  Zhaofeng Dai, XiaohuiShe, C Wang, Y Ding, X Zhang, D Zhao. Thermodynamic analysis on theperformance of barocaloric refrigeration systems using Neopentyl Glycol as therefrigerant. Journal of Thermal Science, 1-11 2023. (I.F. 2.5)

18.  折晓会，王星宇，郭晓龙，刘艺炫，王家蕴，韩鹏，任晓芬，赵学敏，超低温-高温跨温区相变材料制备及物性调控综述。储能科学与技术，2023, 12(12): 3818-3835.（中文核心）

19.  Jinjin Rui, Yimo Luo*,Mengqi Wang, Jinqing Peng, Xiaohui She*. Design and performanceevaluation of an innovative salt hydrates-based reactor for thermochemicalenergy storage. Journal of Energy Storage 55 (2022) 105799 (SCI,I.F. 8.9).

20.  Chen Wang, ZhanpingYou, Yulong Ding, Xiaosong Zhang, Xiaohui She*. Liquid air energystorage with effective recovery, storage and utilization of cold energy fromliquid air evaporation. Energy Conversion and Management 267 (2022) 115708 (SCI,I.F. 11)

21.  Chen Wang, Qi Cui,Zhaofeng Dai, Zhanping You, Xiaosong Zhang*, Lu Xue, Xiaohui She*.Performance analysis of liquid air energy storage with enhanced cold storagedensity for combined heating and power generation. Journal ofEnergy Storage 46 (2022) 103836 (SCI, I.F. 9.4)

22.  W Su, Z Lu, XiaohuiShe, J Zhou, F Wang, B Sun, X Zhang. Liquid desiccant regeneration foradvanced air conditioning: A comprehensive review on desiccant materials,regenerators, systems and improvement technologies. AppliedEnergy 308 (2022) 118394 (SCI, I.F. 11)

23.  Ting Liang, Paul A.Webley, Yi-Chung Chen, Xiaohui She, Yongliang Li, Yulong Ding. Theoptimal design and operation of a hybrid renewable micro-grid with thedecoupled liquid air energy storage. Journal of Cleaner Production 334 (2022) 130189 (SCI, I.F. 11)

24.  Tongtong Zhang, XiaohuiShe*, Zhanping You, Yanqi Zhao, Hongjun Fan, Yulong Ding*. Cryogenicthermoelectric generation using cold energy from a decoupled liquid air energystorage system for decentralised energy networks. AppliedEnergy 305 (2022) 117749 (SCI, I.F. 11)

25.  Chen Wang, Yong Bian,Zhanping You, Yimo Luo, Xiaosong Zhang*, Hao Peng, Yulong Ding, XiaohuiShe*. Dynamic analysis of a novel standalone liquid air energy storagesystem for industrial applications. Energy Conversion and Management 245 (2021) 114537 (SCI, I.F. 9.7).

26.  Chen Wang, XiaosongZhang*, Zhanping You, Muxing Zhang, Shifang Huang, Xiaohui She*. Theeffect of air purification on liquid air energy storage – an analysis frommolecular to systematic modelling. Applied Energy 300 (2021) 117349 (SCI, I.F. 9.7)

27.  Zhu Jiang, Maria ElenaNavarro Rivero, Xianglei Liu, Xiaohui She, Yimin Xuan, YulongDing*. A Novel Composite Phase Change Material For Medium Temperature ThermalEnergy Storage Manufactured With A Scalable Continuous Hot-Melt ExtrusionMethod. Applied Energy 303 (2021) 117591 (SCI, IF 9.7)

28.  Zhu Jiang, Maria ElenaNavarro Rivero, Argyrios Anagnostopoulos, Xiaohui She, XiangleiLiu, Yimin Xuan, Yulong Ding*. Fabrication of form stable composite phasechange materials for thermal energy storage by direct powder incorporation witha preheating process. Powder Technology 391 (2021) 544–556 (SCI, I.F. 5.1)

29.  Xiaohui She, Tongtong Zhang, Xiaodong Peng, Li Wang, Lige Tong, Yimo Luo, XiaosongZhang, Yulong Ding*. Liquid air energy storage for decentralized micro energynetworks with combined cooling, heating, hot water and power supply. Journal ofThermal Science, 30 (2021) 1-17 (SCI, I.F. 1.97)

30.  Tongtong Zhang, XiaohuiShe, Yulong Ding*. A power plant for integrated waste energy recoveryfrom liquid air energy storage and liquefied natural gas. ChineseJournal of Chemical Engineering 34 (2021) 242-257 (SCI, I.F. 2.6)

31.  Tao Wen, Yimo Luo*,Meng Wang, Xiaohui She. Comparative study on the liquid desiccantdehumidification performance of lithium chloride and potassium formate. RenewableEnergy. 167 (2021) 841-852 (SCI, I.F. 6.3)

32.  Xiaodong Guo, Tao Wen,Meng Wang, Yimo Luo*, Xiaohui She, Performance investigation of aliquid desiccant regenerator with CFD technology, AppliedThermal Engineering 184 (2021) 116055 (SCI, I.F. 4.7)

33.  Chen Wang, NevzatAkkurt, Xiaosong Zhang*, Yimo Luo, Xiaohui She*. Techno-economicanalyses of multi-functional liquid air energy storage for power generation,oxygen production and heating. Applied Energy, 275 (2020) 115392 (SCI, I.F. 8.8)

34.  Kongxiang Wang, YanHe, Ankang Kan, Wei Yu*, Lingling Wang, Debing Wang, Pengyu Liu, Huaqing Xie, XiaohuiShe*. Enhancement of therminol-based nanofluids withreverse-irradiation for medium-temperature direct absorption solar collection. MaterialsToday Energy, 17 (2020) 100480 (SCI, I.F. 5.6)

35.  Yimo Luo, NevzatAkkurt, Kai Zhang, Hao Peng, Xiaosong Zhang, Xiaohui She*.Molecular investigation on the anomalous phenomenon at liquid desiccantsurfaces for air conditioning. Building Simulation 2020;13(3): 599-608 (SCI, I.F. 2.5)

36.  Feng Jiang, Lingling Zhang*, Xiaohui She, Chuan Li,Daqiang Cang, Xianglei Liu, Yimin Xuan, Yulong Ding*. Skeleton materials forshape-stabilization of high temperature salts based phase change materials: Acritical review. Renewable and Sustainable Energy Reviews 119 (2020) 109539 (SCI, I.F. 12.1)