基本信息
韩巍 男 博导 中国科学院工程热物理研究所
电子邮件: hanwei@iet.cn
通信地址: 北京市海淀区北四环西路11号
邮政编码: 100190
电子邮件: hanwei@iet.cn
通信地址: 北京市海淀区北四环西路11号
邮政编码: 100190
研究领域
分布式能源系统集成与调控策略;多种能源互补利用技术;中低温热梯级利用技术;分布式太阳能热发电技术。
招生信息
招生专业
080701-工程热物理080705-制冷及低温工程080702-热能工程
招生方向
综合能源系统多能源综合利用新型太阳能热利用
教育背景
2002-04--2006-03 中国科学院工程热物理研究所 博士1999-09--2002-03 大连理工大学 硕士1995-09--1999-07 大连理工大学 学士
工作经历
工作简历
2016-01~现在, 中国科学院工程热物理研究所, 研究员2010-01~2015-12,中国科学院工程热物理研究所, 副研究员2006-07~2010-01,中国科学院工程热物理研究所, 助理研究员
社会兼职
2021-10-22-今,IEEE 能源发展与发电技术委员会, 常务理事
教授课程
多能源互补的分布式系统及集成方法导论
专利与奖励
奖励信息
(1) 浙江电力科学技术奖, 一等奖, 省级, 2018(2) 中国电力科学技术奖, 一等奖, 部委级, 2018(3) 中国华电集团公司科学技术进步奖, 一等奖, 其他, 2017(4) 中国专利优秀奖, 部委级, 2017(5) Journal of Applied Energy Outstanding Reviewer, , 其他, 2010(6) ASME IGTI Best Technical Paper Award, , 其他, 2007(7) ECOS 2007 Yong Scientists Award, , 其他, 2007
专利成果
[1] 韩巍, 金红光, 李济超. 煤燃料的分级气化燃烧系统及燃烧方法. CN: CN116640606A, 2023-08-25.[2] 高林, 王朝威, 韩巍, 王泽峰. 联合热泵的二氧化碳捕集系统. CN: CN115501738A, 2022-12-23.[3] 韩巍, 刘长春, 薛晓东. 煤及超临界水气化发电系统及发电方法. CN: CN114893266A, 2022-08-12.[4] 韩巍, 刘长春, 金红光. 超临界水煤气化的燃煤发电系统及其方法. CN: CN113048465A, 2021-06-29.[5] 韩巍, 陈宜, 金红光, 洪慧, 刘启斌, 韩东江. 超临界CO2和氨水联合循环系统及发电系统. CN: CN109519243B, 2021-03-05.[6] 韩巍, 金红光, 刘启斌, 洪慧, 王泽峰, 薛晓东. 基于超临界CO 2 的槽式集热装置. CN: CN212132920U, 2020-12-11.[7] 韩巍, 金红光, 洪慧, 刘启斌, 薛晓东. 射流和对流换热相结合的吸热装置. CN: CN212132921U, 2020-12-11.[8] 王泽峰, 韩巍, 隋军, 刘长春, 金红光. 综合能源系统协同优化运行调控方法. CN: CN111625961A, 2020-09-04.[9] 韩巍, 金红光, 刘启斌, 洪慧, 王泽峰, 薛晓东. 基于超临界CO 2 的槽式集热装置及应用. CN: CN111442543A, 2020-07-24.[10] 韩巍, 金红光, 洪慧, 刘启斌, 薛晓东. 射流和对流换热相结合的吸热装置及应用. CN: CN111442542A, 2020-07-24.[11] 韩巍, 苏博生, 金红光. 一种沼气和太阳能互补的两段式合成气制备系统及方法. CN: CN110436413A, 2019-11-12.[12] 韩巍, 苏博生, 金红光. 一种沼气和太阳能互补的合成气制备系统及方法. CN: CN110357039A, 2019-10-22.[13] 韩巍, 刘长春, 金红光. 低温余热和电驱动的高温复合热泵系统及蒸汽产生方法. CN: CN110345458A, 2019-10-18.[14] 韩巍, 刘长春, 王泽峰, 金红光. 超临界水煤气化装置与方法. CN: CN110283625A, 2019-09-27.[15] 隋军, 戴宇泽, 金红光, 刘锋, 韩巍. 吸收式空气除湿脱盐工质的盐分离方法及分离系统. CN: CN110180336A, 2019-08-30.[16] 韩巍, 陈宜, 金红光, 洪慧, 刘启斌, 韩东江. 超临界CO 2 和氨水联合循环系统及发电系统. CN: CN109519243A, 2019-03-26.[17] 隋军, 戴宇泽, 徐聪, 刘锋, 韩巍, 金红光. 一种溶液吸收式降温除湿脱盐一体化新风机组. CN: CN108397837A, 2018-08-14.[18] 韩巍, 金红光, 姜迎春. 余热和电复合驱动的升温型热泵循环系统. CN: CN106016822A, 2016-10-12.[19] 韩巍, 金红光, 苏博生. 一种低温余热驱动的溶液除湿系统及方法. CN: CN105737285A, 2016-07-06.[20] 韩巍, 金红光, 姜迎春. 槽塔集热联合驱动的超临界二氧化碳发电系统及方法. CN: CN105673107A, 2016-06-15.[21] 韩巍, 金红光, 王康. 一种低温热源和电联合驱动的双级溶液除湿系统. CN: CN104613560A, 2015-05-13.[22] 韩巍, 金红光, 陈宜. 一种双温热源吸收式制冷系统. CN: CN104214988A, 2014-12-17.[23] Jin, Hongguang, Hong, Hui, Liu, Qibin, Han, Wei, Sui, Jun. DISTRIBUTED COMBINED COOLING, HEATING AND POWER GENERATING APPARATUS AND METHOD WITH INTERNAL COMBUSTION ENGINE BY COMBINING SOLAR ENERGY AND ALTERNATIVE FUEL. CN: US20140338331(A1), 2014-11-20.[24] 韩巍, 金红光, 陈宜. 基于正逆循环耦合的吸收-压缩复合式制冷系统及方法. CN: CN104006570A, 2014-08-27.[25] 韩巍, 杨科, 金红光, 徐建中, 王康. 一种提升风能消纳的大容量储热系统及方法. CN: CN103953966A, 2014-07-30.[26] 金红光, 洪慧, 刘启斌, 韩巍, 隋军. 太阳能与替代燃料互补的分布式内燃机冷热电系统及方法. CN: CN103807009A, 2014-05-21.[27] 金红光, 刘启斌, 洪慧, 隋军, 韩巍. 中低温太阳能与化石燃料热化学互补的发电系统与方法. CN: CN103803491A, 2014-05-21.[28] 韩巍, 金红光, 林汝谋, 陈强. 一种主动调控型燃气轮机分布式冷热电联供系统. CN: CN103775211A, 2014-05-07.[29] 金红光, 韩巍, 陈强, 林汝谋, 崔平. 一种适于回收变温热源的功冷联供系统. CN: CN103542597A, 2014-01-29.[30] 金红光, 韩巍, 孙流莉, 郑丹星, 林汝谋, 杨金福, 崔平. 氨水吸收式制冷系统及其浓度主动调控方法. CN: CN103542590A, 2014-01-29.[31] 金红光, 韩巍, 孙流莉, 郑丹星, 林汝谋, 杨金福. 基于正逆循环耦合的复合式制冷系统及方法. CN: CN103528264A, 2014-01-22.[32] 金红光, 韩巍, 孙流莉, 陈强, 郑丹星, 林汝谋, 杨金福, 崔平. 基于正逆循环耦合的复叠式制冷系统及方法. CN: CN103438598A, 2013-12-11.[33] 金红光, 韩巍, 孙流莉, 郑丹星. 回收工质有效成分制冷的功冷联产系统及方法. CN: CN103161528A, 2013-06-19.[34] 金红光, 韩巍, 孙流莉. 一种化石燃料与太阳能互补的分布式供能系统及方法. CN: CN102733956A, 2012-10-17.[35] 洪慧, 金红光, 韩巍, 彭烁, 高志超, 张传强, 韩涛. 节水型太阳能燃气轮机与卡林那循环联合的热发电系统. CN: CN102734094A, 2012-10-17.[36] 金红光, 韩巍, 孙流莉, 郑丹星, 杨金福, 崔平. 氨水混合工质功冷联供的热力循环系统及方法. CN: CN102721230A, 2012-10-10.[37] 金红光, 刘启斌, 高志超, 韩巍, 张传强. 一种抛物槽式太阳能热发电系统. CN: CN102678489A, 2012-09-19.[38] 金红光, 韩巍, 郑丹星, 孙流莉, 崔平. 一种工质浓度可调的氨水吸收式制冷系统及方法. CN: CN102645050A, 2012-08-22.[39] 金红光, 韩巍, 孙流莉. 一种化石燃料与地热相结合的生活热水-电联供系统及方法. CN: CN102373998A, 2012-03-14.[40] 金红光, 韩巍, 高志超. 双级蓄热的槽式太阳能热发电系统. CN: CN102242699A, 2011-11-16.[41] 金红光, 韩巍, 杨金福, 孙流莉, 崔平. 混合工质功冷联供热力循环系统及方法. CN: CN102242985A, 2011-11-16.[42] 金红光, 韩巍, 林汝谋, 王亚龙. 基于化石燃料化学能适度转化的多功能能源系统. CN: CN101993730A, 2011-03-30.[43] 金红光, 韩巍, 高林. 一种多功能能源装置. CN: CN101285004B, 2010-12-15.[44] 杨金福, 金红光, 杨善让, 韩巍, 隋军, 付经伦. 基于正逆耦合循环的凝汽式火力发电系统. CN: CN201610772U, 2010-10-20.[45] 金红光, 韩巍, 林汝谋, 宿建峰. 槽塔结合的双级蓄热太阳能热发电系统. CN: CN101539123A, 2009-09-23.[46] 金红光, 王志峰, 黄湘, 韩巍, 宿建峰, 袁建丽, 姚志豪. 带有双级蓄热的塔式太阳能热发电系统. CN: CN101413719A, 2009-04-22.[47] 金红光, 郑丹星, 高林, 韩巍. 一种分离CO 2 的化工动力多联产能源系统及方法. CN: CN101318620A, 2008-12-10.[48] 金红光, 陈斌, 韩巍. 双燃料重整化工系统生产化工产品的方法. CN: CN1923974A, 2007-03-07.[49] 金红光, 韩巍, 高林, 陈斌. 双燃料重整多功能能源系统及方法. CN: CN1869165A, 2006-11-29.[50] 金红光, 郑丹星, 冯志兵, 韩巍, 隋军, 王志峰, 徐建中. 多功能分布式冷热电联产系统及方法. CN: CN1629463A, 2005-06-22.[51] 金红光, 郑丹星, 冯志兵, 韩巍, 隋军, 王志峰, 徐建中, 崔平. 多功能分布式冷热电联产系统. CN: CN2687355Y, 2005-03-23.
出版信息
发表论文
[1] Xue, Xiaodong, Liu, Changchun, Han, Wei, Wang, Zefeng, Zhang, Na, Jin, Hongguang, Wang, Xiaodong. Proposal and investigation of a high-efficiency coal-fired power generation system enabled by chemical recuperative supercritical water coal gasification. ENERGY[J]. 2023, 267: http://dx.doi.org/10.1016/j.energy.2022.126598.[2] Xiaodong Xue, Wei Han, Changchun Liu, Jichao Li, Hongguang Jin, Xiaodong Wang. Proposal and evaluation of a hydrogen and electricity cogeneration system based on thermochemical complementary utilization of coal and solar energy. ENERGY CONVERSION AND MANAGEMENT. 2023, 291: http://dx.doi.org/10.1016/j.enconman.2023.117266.[3] Xiaodong Xue, Wei Han, Yu Xin, Changchun Liu, Hongguang Jin, Xiaodong Wang. Proposal and energetic and exergetic evaluation of a hydrogen production system with synergistic conversion of coal and solar energy. ENERGY. 2023, 283: http://dx.doi.org/10.1016/j.energy.2023.128489.[4] Xue, Xiaodong, Han, Wei, Wang, Zefeng, Jin, Hongguang, Wang, Xiaodong. Proposal and assessment of a solar-coal thermochemical hybrid power generation system. APPLIED THERMAL ENGINEERING[J]. 2023, 219: http://dx.doi.org/10.1016/j.applthermaleng.2022.119584.[5] 薛晓东, 韩巍, 金红光, 王晓东. 化学回热的超临界水煤气化联合循环发电系统及性能分析. 西安交通大学学报[J]. 2023, 57(4): 97-106, http://lib.cqvip.com/Qikan/Article/Detail?id=7109469017.[6] Liu, Changchun, Han, Wei, Xue, Xiaodong. Experimental investigation of a high-temperature heat pump for industrial steam production. APPLIED ENERGY[J]. 2022, 312: http://dx.doi.org/10.1016/j.apenergy.2022.118719.[7] Su, Bosheng, Wang, Yilin, Xu, Zhilong, Han, Wei, Jin, Hongguang, Wang, Hongsheng. Novel ways for hydrogen production based on methane steam and dry reforming integrated with carbon capture. ENERGY CONVERSION AND MANAGEMENT[J]. 2022, 270: http://dx.doi.org/10.1016/j.enconman.2022.116199.[8] Changchun Liu, Wei Han, Zefeng Wang, Na Zhang. A hybrid power generation system based on self-sustaining supercritical water gasification of coal. Journal of Thermal Science[J]. 2022, [9] Liu Changchun, Han Wei, Wang Zefeng, Zhang Na. A New Cleaner Power Generation System Based on Self-Sustaining Supercritical Water Gasification of Coal. JOURNAL OF THERMAL SCIENCE. 2021, http://apps.webofknowledge.com/CitedFullRecord.do?product=UA&colName=WOS&SID=5CCFccWmJJRAuMzNPjj&search_mode=CitedFullRecord&isickref=WOS:000714528400001.[10] Feng Liu, Yuze Dai, Jun Sui, Wei Han, Cong Xu, Yuxing Wang, Hongguang Jin. Design, construction and preliminary test of a prototype of a heat-driven air-conditioning system integrated with marine aerosol removal. ENERGY CONVERSION AND MANAGEMENT: X[J]. 2021, 10: 100080-, http://dx.doi.org/10.1016/j.ecmx.2021.100080.[11] Liu, Changchun, Han, Wei, Wang, Zefeng, Zhang, Na, Kang, Qilan, Liu, Meng. Proposal and assessment of a new solar space heating system by integrating an absorption-compression heat pump. APPLIED ENERGY[J]. 2021, 294: http://dx.doi.org/10.1016/j.apenergy.2021.116966.[12] 薛晓东, 韩巍, 王晓东, 隋军. 适合分布式冷热电联供系统的中小型发电装置. 发电技术[J]. 2020, 41(3): 252-260, http://lib.cqvip.com/Qikan/Article/Detail?id=7102042094.[13] Han, Wei, Zhu, Tong, Gan, Zhongxue. Special Column for the Distributed Energy System with Renewable Energy and Natural Gas. JOURNAL OF THERMAL SCIENCE[J]. 2020, 29(5): 1095-1096, http://lib.cqvip.com/Qikan/Article/Detail?id=7102833045.[14] Chen, Yi, Xu, Dongjie, Chen, Zheng, Gao, Xiang, Ren, Fukang, Han, Wei. Performance Analysis and Evaluation of a Supercritical CO(2)Rankine Cycle Coupled with an Absorption Refrigeration Cycle. JOURNAL OF THERMAL SCIENCE[J]. 2020, 29(4): 1036-1052, http://lib.cqvip.com/Qikan/Article/Detail?id=7102368075.[15] Liu, Changchun, Han, Wei, Wang, Shurui, Wang, Zefeng, Zhang, Na. Thermoeconomic assessment of a heat pump-enhanced steam and power cogeneration system under design and off-design conditions based on energy level-based exergy cost allocation method. ENERGY CONVERSION AND MANAGEMENT[J]. 2020, 209: http://dx.doi.org/10.1016/j.enconman.2020.112633.[16] Liu, Changchun, Han, Wei, Wang, Zefeng, Zhang, Na. Proposal and Assessment of an Engine-Based Distributed Steam and Power Cogeneration System Integrated with an Absorption-Compression Heat Pump. JOURNAL OF THERMAL SCIENCE[J]. 2020, 29(5): 1165-1179, http://lib.cqvip.com/Qikan/Article/Detail?id=7102833050.[17] Su, Bosheng, Han, Wei, He, Hongzhou, Jin, Hongguang, Chen, Zhijie, Zheng, Jieqing, Yang, Shaohui, Zhang, Xiaodong. Using moderate carbon dioxide separation to improve the performance of solar-driven biogas reforming process. APPLIED ENERGY[J]. 2020, 279: http://dx.doi.org/10.1016/j.apenergy.2020.115693.[18] Dai, Yuze, Liu, Feng, Sui, Jun, Wang, Dandan, Han, Wei, Jin, Hongguang. Hybrid liquid desiccant air-conditioning system combined with marine aerosol removal driven by low-temperature heat source. APPLIED ENERGY[J]. 2020, 275: http://dx.doi.org/10.1016/j.apenergy.2020.115365.[19] Liu, Hao, Sui, Jun, Han, Wei, Wang, Zefeng, Zhang, Na. Operation strategy of interconnected combined cooling, heating, and power systems based on exergoeconomic analysis. JOURNAL OF CLEANER PRODUCTION[J]. 2020, 245: http://dx.doi.org/10.1016/j.jclepro.2019.118822.[20] Su, Bosheng, Han, Wei, He, Hongzhou, Jin, Hongguang, Yang, Shaohui, Zhang, Xiaodong. Mechanism and experimental validation of a thermochemical energy conversion process by utilization of biogas chemical energy. ENERGY CONVERSION AND MANAGEMENT[J]. 2020, 214: http://dx.doi.org/10.1016/j.enconman.2020.112827.[21] Su, Bosheng, Han, Wei, He, Hongzhou, Jin, Hongguang, Chen, Zhijie, Yang, Shaohui. A biogas-fired cogeneration system based on chemically recuperated gas turbine cycle. ENERGY CONVERSION AND MANAGEMENT[J]. 2020, 205: http://dx.doi.org/10.1016/j.enconman.2019.112394.[22] Liu, Changchun, Wang, Zefeng, Han, Wei, Kang, Qilan, Liu, Meng. Working domains of a hybrid absorption-compression heat pump for industrial applications. ENERGY CONVERSION AND MANAGEMENT[J]. 2019, 195: 226-235, http://dx.doi.org/10.1016/j.enconman.2019.05.013.[23] Chen, Yi, Xu, Dongjie, Chen, Zheng, Gao, Xiang, Han, Wei. Energetic and exergetic analysis of a solar-assisted combined power and cooling (SCPC) system with two different cooling temperature levels. ENERGY CONVERSION AND MANAGEMENT[J]. 2019, 182: 497-507, http://dx.doi.org/10.1016/j.enconman.2018.12.069.[24] Chen, Zhewen, Gao, Lin, Han, Wei, Zhang, Longyan. 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发表著作
(1) 纯氧燃烧在发电和二氧化碳捕集中的应用, Chapter 15 of Oxy-fuel combustion for power generation and carbon dioxide (CO2) captrue, Woodhead Publishing Limited, 2011-03, 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 4 作者
科研活动
科研项目
( 1 ) 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( 2 ) 多能源互补的分布式冷热电联供系统基础研究, 参与, 国家任务, 2009-01--2014-12( 3 ) 余热驱动功冷联产的正/逆循环耦合机理研究, 负责人, 国家任务, 2012-01--2015-12( 4 ) 多能源互补的低碳冷热电联供系统集成技术, 负责人, 国家任务, 2011-01--2014-06( 5 ) 微型移动式燃气轮机冷热电联供技术及示范, 参与, 国家任务, 2012-01--2015-12( 6 ) 能源消费与水泥生产的排放, 参与, 中国科学院计划, 2011-01--2015-12( 7 ) 多种品质余热梯级利用方法与机理研究, 负责人, 国家任务, 2013-01--2017-12( 8 ) 可再生能源与天然气融合的分布式能源的网络, 参与, 国家任务, 2014-01--2018-12( 9 ) 生物沼气与太阳能热化学互补的分布式供能系统集成, 负责人, 国家任务, 2016-01--2019-12( 10 ) 动力余热驱动功冷联产技术, 负责人, 中国科学院计划, 2012-01--2015-12( 11 ) 分布式能源关键技术研发与系统集成应用合作研究, 参与, 国家任务, 2014-04--2017-03( 12 ) 新型热力系统的能量转换与梯级利用, 负责人, 国家任务, 2016-07--2021-06( 13 ) 重点工业用能系统能源利用过程能效提升关键技术, 参与, 国家任务, 2016-07--2019-06( 14 ) 先进余热热泵系统, 负责人, 国家任务, 2017-01--2017-12( 15 ) 聚光太阳能超临界CO2混合工质分布式供能关键技术, 负责人, 中国科学院计划, 2018-01--2019-12( 16 ) 化石能源与太阳能协同转化的源头互补机制与方法, 负责人, 国家任务, 2021-01--2025-12( 17 ) 煤气化重型燃机联合循环全工况性能分析与设计基础, 负责人, 国家任务, 2021-01--2025-12
指导学生
已指导学生
赵婷 硕士研究生 080701-工程热物理
孙流莉 博士研究生 080701-工程热物理
王康 硕士研究生 080702-热能工程
陈强 博士研究生 080701-工程热物理
苏博生 硕士研究生 085206-动力工程
姜迎春 硕士研究生 085206-动力工程
亓海青 硕士研究生 080703-动力机械及工程
陈宜 博士研究生 080701-工程热物理
苏博生 博士研究生 080701-工程热物理
王泽峰 博士研究生 080701-工程热物理
刘长春 博士研究生 080701-工程热物理