080701-工程热物理
080702-热能工程
080703-动力机械及工程

多能互补分布式
多能互补捕集CO2
太阳能制氢

2000-09--2004-03   中国科学院工程热物理研究所   博士
1994-09--1997-03   河北工业大学   硕士
1988-09--1992-07   大连理工大学   本科

   

2007-05~现在, 中国科学院工程热物理研究所, 副研究员、研究员
2004-03~2007-04,北京科技大学热能工程系, 讲师、副教授
1997-04~2000-08,北京巴布科克威尔科克斯有限公司, 工程师
1992-09~1994-08,中石油管道局职工学院, 助教

2020-01-01-2024-01-31,中国系统工程学会生态环境系统工程专业委员会委员,
2019-08-05-2022-08-05,国家光热联盟第四届专家委员会委员,
2019-04-19-2021-04-19,中国可再生能源学会太阳能热发电专业委员会专家组成员,
2019-01-01-今,Environmental & Waste Management 期刊编委会成员,
2018-01-13-2022-01-13,北京能源与环境学会个人会员,
2016-11-25-今,国家太阳能光热产业技术创新战略联盟专家委员会委员,
2015-01-01-今,国家科学技术部自然科学奖评审专家,
2010-01-01-2013-12-31,International Conference of Energy, Cost, Optimization and Systems科学技术委员会委员,

多能源互补转化原理、技术、应用
多能源互补的分布式系统及集成方法导论

   

（1） 中国科学院优秀导师奖, 院级, 2021
（2） 第十九届中国专利优秀奖, 国家级, 2017
（3） 国际能源领域重要会议ECOS2013最佳论文奖, 其他, 2013
（4） 计量供热系统管网调节性能及系统优化研究, 省级, 2010
（5） 能源领域重要国际会议绿色能源2007最佳论文奖, 其他, 2007
（6） 第20届ECOS国际会议青年科学家奖, , 其他, 2007

[1] 金红光, 赵凯, 洪慧, 李扬. 太阳能连续分频聚光系统. CN115882784A, 2023-03-31.

[2] 高林, 洪慧, 王朝威, 魏延冰. 一种氢气-电力联产系统与调峰运行方法. CN: CN113790101A, 2021-12-14.

   

[1] 李想, 洪慧. 光电互补的氯碱化工与冷热电氢多联供系统热力学分析及优化. 动力工程学报[J]. 2023, [2] Xiang Li, Hui Hong. Environment Analysis of a Novel PV-PEMFC-GT-based Chlor-alkali Process Multi-generation System. International Conference on Applied Energy:CENnull. 2023, [3] Fan Sun, Xueli Xing, Yu Xin, Hui Hong. Solar-driven CO2 Methanation Over Nickel-based Catalysts for Solar Fuel Production: An Experimental and Mechanism Study. ICAE Low Carbon Cities & Urban Energy Systemsnull. 2023, [4] Juan Fang, Fan Sun, Amanj Kheradmand, Haimei Xu, Hao Dong, Xiaoping Yi, Hui Hong, Xunliang Liu. Solar thermo-photo catalytic hydrogen production from water with non-metal carbon nitrides. FUEL[J]. 2023, 353: http://dx.doi.org/10.1016/j.fuel.2023.129277.
[5] 孙帆, 辛宇, 邢学利, 洪慧, 娄佳慧. 聚光太阳能光热驱动二氧化碳甲烷化实验研究. 西安交通大学学报[J]. 2023, [6] Fan Sun, Xueli Xing, Hui Hong. Comment on "CO2 Footprint of Thermal Versus Photothermal CO2 Catalysis". Small[J]. 2022, 2203647: 1-4, [7] Xueli Xing, Fan Sun, Wanjun Qu, Yu Xin, Hui Hong. Numerical simulation and experimental study of a novel hybrid system coupling photovoltaic and solar fuel for electricity generation. ENERGY CONVERSION AND MANAGEMENT[J]. 2022, 255: [8] Cao, Yali, Zhang, Hao, Liu, Xiangyu, Jiang, Qiongqiong, Hong, Hui. A strategy of mid-temperature natural gas based chemical looping reforming for hydrogen production. International Journal of Hydrogen Energy[J]. 2022, 47(24): 12052-12066, [9] Sun, Fan, Xing, Xueli, Hong, Hui, Xu, Bang, Hao, Yong. Concentrated Full-Spectrum Solar-Driven CO2 Reduction with H2O to Solar Fuels by Au Nanoparticle-Decorated TiO2. ENERGY & FUELS[J]. 2022, 36(12): 6433-6444, http://dx.doi.org/10.1021/acs.energyfuels.2c00735.
[10] 辛宇, 邢学利, 白章, 洪慧. 一种双层槽式聚光晶硅光伏-光热甲醇裂解发电系统探析. 工程热物理学报[J]. 2022, 43(5): 1141-1147, [11] Kai Zhao, Hongguang Jin, Zhongrui Gai, Hui Hong. A thermal efficiency-enhancing strategy of parabolic trough collector systems by cascadingly applying multiple solar selective-absorbing coatings. Applied Energy[J]. 2022, 309: 118508-, [12] Wanjun Qu, Jing Zhang, Hui Hong, Runhua Jiang, Kewen Peng, Ruilin Wang, Haifeng Wu, Runsheng Yan. An approach of studying the full-spectrum conversion potential for solar photovoltaic and thermal processes. Energy Conversion and Management[J]. 2022, 253: 115194-, [13] Qu, Wanjun, Zhang, Jing, Jiang, Runhua, Liu, Xiangyu, Zhang, Hao, Gao, Yang, Hong, Hui, Liu, Tong. An energy storage approach for storing surplus power into hydrogen in a cogeneration system. ENERGY CONVERSION AND MANAGEMENT[J]. 2022, 268: http://dx.doi.org/10.1016/j.enconman.2022.116032.
[14] Ran Zhou, Ruilin Wang, Chenjian Xing, Jian Sun, Yafei Guo, Weiling Li, Wanjun Qu, Hui Hong, Chuanwen Zhao. Design and analysis of a compact solar concentrator tracking via the refraction of the rotating prism. ENERGYnull. 2022, 251: [15] Xing, Xueli, Tang, Sanli, Hong, Hui, Jin, Hongguang. Concentrated solar photocatalysis for hydrogen generation from water by titania-containing gold nanoparticles. INTERNATIONAL JOURNAL OF HYDROGEN ENERGY[J]. 2020, 45(16): 9612-9623, http://dx.doi.org/10.1016/j.ijhydene.2020.01.197.
[16] Jiang, Qiongqiong, Gao, Yunfei, Haribal, Vasudev Pralhad, Qi, He, Liu, Xingbo, Hong, Hui, Jin, Hongguang, Li, Fanxing. Mixed conductive composites for 'Low-Temperature' thermo-chemical CO(2)splitting and syngas generation. JOURNAL OF MATERIALS CHEMISTRY A[J]. 2020, 8(26): 13173-13182, https://www.webofscience.com/wos/woscc/full-record/WOS:000546391600025.
[17] Hong, Hui, Jiang, Qiongqiong, Liu, Xiangyu, Zhang, Hao, Jin, Hongguang. Development of Chemical Looping Combustion Power Systems at the Chinese Academy of Sciences. ENERGY & FUELSnull. 2020, 34(10): 11791-11812, http://dx.doi.org/10.1021/acs.energyfuels.0c02153.
[18] Tang, Sanli, Xing, Xueli, Yu, Wei, Sun, Jie, Xuan, Yimin, Wang, Lu, Xu, Yangfan, Hong, Hui, Jin, Hongguang. Synergizing Photo-Thermal H-2 and Photovoltaics into a Concentrated Sunlight Use. ISCIENCE[J]. 2020, 23(4): http://dx.doi.org/10.1016/j.isci.2020.101012.
[19] Wang, Ruilin, Hong, Hui, Sun, Jie, Jin, Hongguang. A solar hybrid system integrating concentrating photovoltaic direct steam generation by chemical heat pump. ENERGY CONVERSION AND MANAGEMENT[J]. 2019, 196: 856-865, http://dx.doi.org/10.1016/j.enconman.2019.06.014.
[20] Wang, Ruilin, Sun, Jie, Hong, Hui. Proposal of solar-aided coal-fired power generation system with direct steam generation and active composite sun-tracking. RENEWABLE ENERGY[J]. 2019, 141: 596-612, http://dx.doi.org/10.1016/j.renene.2019.04.013.
[21] 唐三力, 曲万军, 孙杰, 洪慧. 纳米流体聚光光热化学与光伏互补系统探索. 工程热物理学报[J]. 2019, 239-245, https://kns.cnki.net/KCMS/detail/detail.aspx?dbcode=CJFQ&dbname=CJFDLAST2019&filename=GCRB201902001&v=MTI1MjFyQ1VSN3FlWitSdkZpN2xWYnJJSWk3WmJMRzRIOWpNclk5RlpZUjhlWDFMdXhZUzdEaDFUM3FUcldNMUY=.
[22] Tang, Sanli, Hong, Hui, Jin, Hongguang, Xuan, Yimin. A cascading solar hybrid system for co-producing electricity and solar syngas with nanofluid spectrum selector. APPLIED ENERGY[J]. 2019, 248: 231-240, http://dx.doi.org/10.1016/j.apenergy.2019.04.137.
[23] Fan, Junming, Hong, Hui, Jin, Hongguang. Life cycle global warming impact of CO2 capture by in-situ gasification chemical looping combustion using ilmenite oxygen carriers. JOURNAL OF CLEANER PRODUCTION[J]. 2019, 234: 568-578, http://dx.doi.org/10.1016/j.jclepro.2019.06.082.
[24] Tian, Xiu, Ruan, JuXin, Huang, JinQuan, Yang, ChangQing, Fang, Xin, Chen, ZhiWen, Hong, Hui, Wang, LingJian, Mao, YingBo, Lu, Shan, Zhang, TianZhen, Chen, XiaoYa. Characterization of gossypol biosynthetic pathway. PROCEEDINGS OF THE NATIONAL ACADEMY OF SCIENCES OF THE UNITED STATES OF AMERICA[J]. 2018, 115(23): E5410-E5418, http://dx.doi.org/10.1073/pnas.1805085115.
[25] Fan, Junming, Hong, Hui, Jin, Hongguang. Biomass and coal co-feed power and SNG polygeneration with chemical looping combustion to reduce carbon footprint for sustainable energy development: Process simulation and thermodynamic assessment. RENEWABLE ENERGY[J]. 2018, 125: 260-269, http://dx.doi.org/10.1016/j.renene.2018.02.116.
[26] Jiang Qiongqiong, Zhang Hao, Kang Qilan, Hong Hui, Jin Hongguang, Yan J, Wang C, Yu J, Jia H, Wu J, Xu T, Zhang Y. A mini smart solar driven hydrogen production process with chemical looping reforming for microgrids. RENEWABLE ENERGY INTEGRATION WITH MINI/MICROGRIDnull. 2018, 145: 289-294, http://dx.doi.org/10.1016/j.egypro.2018.04.053.
[27] Qiongqiong Jiang, Hao Zhang, Qilan Kang, Hui Hong, Hongguang Jin. A mini smart solar driven hydrogen production process with chemical looping reforming for microgrids. ENERGY PROCEDIA. 2018, 145: 289-294, http://dx.doi.org/10.1016/j.egypro.2018.04.053.
[28] Jiang, Qiongqiong, Zhang, Hao, Deng, Yanan, Kang, Qilan, Hong, Hui, Jin, Hongguang. Properties and reactivity of LaCuxNi1-xO3 perovskites in chemical-looping combustion for mid-temperature solar-thermal energy storage. APPLIED ENERGY[J]. 2018, 228: 1506-1514, http://dx.doi.org/10.1016/j.apenergy.2018.07.028.
[29] Tang, Sanli, Hong, Hui, Sun, Jie, Qu, Wanjun. Efficient path of distributed solar energy system synergetically combining photovoltaics with solar-syngas fuel cell. ENERGY CONVERSION AND MANAGEMENT[J]. 2018, 173: 704-714, http://dx.doi.org/10.1016/j.enconman.2018.07.089.
[30] Wang, Ruilin, Qu, Wanjun, Hong, Hui, Sun, Jie, Jin, Hongguang. Experimental performance of 300 kW(th) prototype of parabolic trough collector with rotatable axis and irreversibility analysis. ENERGY[J]. 2018, 161: 595-609, http://dx.doi.org/10.1016/j.energy.2018.07.136.
[31] Wang, Ruilin, Sun, Jie, Hong, Hui, Jin, Hongguang. Comprehensive evaluation for different modes of solar-aided coal-fired power generation system under common framework regarding both coal-savability and efficiency-promotability. ENERGY[J]. 2018, 143: 151-167, http://dx.doi.org/10.1016/j.energy.2017.10.085.
[32] Qu, Wanjun, Hong, Hui, Li, Qiang, Xuan, Yimin. Co-producing electricity and solar syngas by transmitting photovoltaics and solar thermochemical process. APPLIED ENERGY[J]. 2018, 217: 303-313, http://dx.doi.org/10.1016/j.apenergy.2018.02.159.
[33] Wanjun Qu, Bosheng Su, Sanli Tang, Hui hong. Thermodynamic Evaluation of a hybrid solar concentrating photovoltaic/Kalina cycle for full spectrum utilization. ENERGY PROCEDIA. 2017, 142: 597-602, http://dx.doi.org/10.1016/j.egypro.2017.12.099.
[34] Hong, Hui, Gao, Jianjian, Qu, Wanjun, Sun, Jie, Kang, Qilan, Li, Qiang. Thermodynamic analyses of the solar-driven Kalina cycle having a variable concentration ratio. APPLIED THERMAL ENGINEERING[J]. 2017, 126: 997-1005, http://dx.doi.org/10.1016/j.applthermaleng.2017.07.160.
[35] Qu, Wanjun, Wang, Ruilin, Hong, Hui, Sun, Jie, Jin, Hongguang. Test of a solar parabolic trough collector with rotatable axis tracking. APPLIED ENERGY[J]. 2017, 207: 7-17, http://dx.doi.org/10.1016/j.apenergy.2017.05.114.
[36] Bai, Zhang, Liu, Qibin, Lei, Jing, Hong, Hui, Jin, Hongguang. New solar-biomass power generation system integrated a two-stage gasifier. APPLIED ENERGY[J]. 2017, 194: 310-319, http://dx.doi.org/10.1016/j.apenergy.2016.06.081.
[37] Hong, Hui, Zhang, Hao, Han, Tao, He, Fengjuan, Jin, Hongguang. Experimental Analyses on Feasibility of Chemical-Looping CoO/CoAl2O4 with Additive for Solar Thermal Fuel Production. ENERGY TECHNOLOGY[J]. 2017, 5(9): 1536-1545, https://www.webofscience.com/wos/woscc/full-record/WOS:000410137900006.
[38] Qu Wanjun, Su Bosheng, Tang Sanli, Hong Hui, Yan J, Wu J, Li H. Thermodynamic Evaluation of a hybrid solar concentrating photovoltaic/Kalina cycle for full spectrum utilization. PROCEEDINGS OF THE 9TH INTERNATIONAL CONFERENCE ON APPLIED ENERGYnull. 2017, 142: 597-602, http://dx.doi.org/10.1016/j.egypro.2017.12.099.
[39] Wang, Ruilin, Sun, Jie, Hong, Hui, Liu, Qibin. An on-site test method for thermal and optical performances of parabolic-trough loop for utility-scale concentrating solar power plant. SOLAR ENERGY[J]. 2017, 153: 142-152, http://dx.doi.org/10.1016/j.solener.2017.05.053.
[40] Tang, Sanli, Sun, Jie, Hong, Hui, Liu, Qibin. Solar fuel from photo-thermal catalytic reactions with spectrum-selectivity: a review. FRONTIERS IN ENERGY[J]. 2017, 11(4): 437-451, https://www.webofscience.com/wos/woscc/full-record/WOS:000419367300003.
[41] Hong, Hui, Peng, Shuo, Zhang, Hao, Sun, Jie, Jin, Hongguang. Performance assessment of hybrid solar energy and coal-fired power plant based on feed-water preheating. ENERGY[J]. 2017, 128: 830-838, http://dx.doi.org/10.1016/j.energy.2017.04.050.
[42] Deng Yanan, Jiang Qiongqiong, Zhang Hao, Hong Hui, Jin Hongguang, Yan J, Wu J, Li H. Experimental assessment on the solar energy storage by using chemical-looping combustion. PROCEEDINGS OF THE 9TH INTERNATIONAL CONFERENCE ON APPLIED ENERGYnull. 2017, 142: 609-615, http://dx.doi.org/10.1016/j.egypro.2017.12.101.
[43] Xiang Gao, Hui Hong, Wei-Chao Li, Lili Yang, Jirong Huang, You-Li Xiao, Xiao-Ya Chen, Gen-Yun Chen. ;)ownregulation of Rubisco Activity by Nonenzymatic Acetylation of RbcL. 分子植物：英文版[J]. 2016, 1018-1027, http://lib.cqvip.com/Qikan/Article/Detail?id=669927577.
[44] Gao, Xiang, Hong, Hui, Li, WeiChao, Yang, Lili, Huang, Jirong, Xiao, YouLi, Chen, XiaoYa, Chen, GenYun. Downregulation of Rubisco Activity by Non-enzymatic Acetylation of RbcL. MOLECULAR PLANT[J]. 2016, 9(7): 1018-1027, http://www.corc.org.cn/handle/1471x/2374664.
[45] Hui Hong, IEEE. Application of GIS Technique to Research on the Path of Regional Integration in the National Capital Region of China. 2014 SIXTH INTERNATIONAL CONFERENCE ON MEASURING TECHNOLOGY AND MECHATRONICS AUTOMATION (ICMTMA)null. 2014, 132-135, 

（1） Concentrating Solar Power Technology, Wood Head Publishing Limited, 2012-12, 第 2 作者
（2） 太阳能热发电系统集成原理与方法, 中国科学出版社, 2018-06, 第 1 作者
（3） Concentrating Solar Power Technology, Elsevier, 2020-11, 第 其他 作者

   

（ 1 ） 槽式太阳能集热与燃煤机组互补发电集成技术研究, 负责人, 国家任务, 2012-01--2015-12
（ 2 ） 太阳能与化石能源互补系统理论与方法, 参与, 国家任务, 2013-01--2017-12
（ 3 ） 控制CO2的太阳热能与合成燃料化学链燃烧整合的能量系统集成机理研究, 负责人, 国家任务, 2010-01--2012-12
（ 4 ） 光热电耦合能量系统集成研究, 负责人, 国家任务, 2010-01--2011-12
（ 5 ） 低成本太阳能与替代燃料互补制氢关键技术, 负责人, 国家任务, 2008-01--2010-12
（ 6 ） 太阳能与燃煤互补发电技术研究, 参与, 中国科学院计划, 2012-01--2015-12
（ 7 ） 太阳能与化石能源互补的多功能系统集成研究, 参与, 国家任务, 2009-01--2012-12
（ 8 ） 规模化中低温太阳能燃料转化技术研究, 负责人, 中国科学院计划, 2009-07--2010-12
（ 9 ） 太阳热能与合成燃料化学链燃烧整合能量系统集成机理, 负责人, 国家任务, 2006-01--2008-12
（ 10 ） 太阳能全光谱利用的能量耦合原理, 负责人, 国家任务, 2016-01--2020-12
（ 11 ） 太阳能热发电关键技术, 负责人, 研究所自选, 2012-01--2017-06
（ 12 ） 燃料热化学转换与源头蓄能, 参与, 国家任务, 2016-01--2020-12
（ 13 ） 国家自然科学基金“能源有序转化”基础科学中心, 参与, 国家任务, 2019-01--2023-12
（ 14 ） 聚光太阳能超临界CO2混合工质分布式供能关键技术, 参与, 中国科学院计划, 2018-01--2019-12
（ 15 ） 超临界CO2太阳能热发电系统集成技术, 负责人, 国家任务, 2019-01--2022-12

（1）多能互补制氢   2020第六届中国太阳能热发电大会   2020-08-26
（2）可持续化学链燃烧发电系统及关键技术探讨   第一届中国化学链会议   2019-12-04
（3）Mixed Conductive Composites for ‘Low-Temperature’ Thermochemical CO2 Splitting and Syngas Generation   2019-11-10
（4）光伏光热化学互补氢电联产探索研究   第五届中国太阳能热发电大会   2019-08-21
（5）Analysis of a Mid-temperature Solar Power System Using Chemical-looping Combustion   2019-05-22
（6）A solar hybrid system integrating concentrating photovoltaic and solar thermal electricity by chemical heat pump   2018-08-22
（7）Thermodynamic Evaluation of a hybrid solar concentrating photovoltaic/Kalina cycle for full spectrum utilization   2017-08-21
（8）Experimental assessment on the solar energy storage by using chemical-looping combustion   2017-08-21
（9）Thermodynamic Evaluation and Optimization of Integrated Solar Combined Cycle for Designing Solar Tower Plant   2017-07-02
（10）Prototype testing of a 300kWth solar parabolic-trough collector using rotatable axis tracking   2016-10-08
（11）A Mid-temperature Solar hybridization CCHP System with alternative fuel Chemical-looping Combustion    2015-06-23
（12）Synergy of Mid-temperature Solar-driven Methanol Decomposition and Reforming for Power Generation   2015-03-28
（13）Proposal of New Configuration Suitable for off-Design of Mid-temperature Solar Thermochemical Hybridization Power Ssystem   2014-06-21
（14）Reactivity of DME-fueled Chemical-looping Combustion Using (CoO+1.0% PtO2)/CoAl2O4 for Solar heat Storage   2013-08-26
（15）Key Basis Research and Technology of Mid-Temperature Solar Thermochemical Process Hybridization with Fossil Fuel for power generation   Hong Hui   2013-08-20
（16）Solar Thermochemical Hybrid Tri-generation System With CO2 Capture Using DME-Fueled Chemical Looping Combustion    2011-08-10
（17）Integrating of Energy Conversion for Solar Thermal Power System   2010-08-20

已指导学生

潘莹  硕士研究生  080701-工程热物理  

张传强  硕士研究生  080701-工程热物理  

贺凤娟  硕士研究生  080702-热能工程  

王赵国  硕士研究生  080702-热能工程  

彭烁  博士研究生  080701-工程热物理  

刘秀峰  博士研究生  080701-工程热物理  

许璐  硕士研究生  080702-热能工程  

高健健  硕士研究生  085206-动力工程  

张浩  博士研究生  080702-热能工程  

邓亚男  硕士研究生  080701-工程热物理  

唐三力  博士研究生  080701-工程热物理  

曲万军  博士研究生  080701-工程热物理  

王瑞林  博士研究生  080702-热能工程  

曹雅丽  博士研究生  080701-工程热物理  

刘翔宇  博士研究生  080701-工程热物理  

蒋琼琼  博士研究生  080701-工程热物理  

张振宇  硕士研究生  125600-工程管理  

王兴兴  硕士研究生  125600-工程管理  

范峻铭  博士研究生  080701-工程热物理  

现指导学生

邢学利  博士研究生  080701-工程热物理  

辛宇  博士研究生  080701-工程热物理