- 姓名: 李鑫
- 性别: 男
- 职称: 研究员
- 职务:
- 学历: 博士
- 电话: 01082547036
- 传真: 01062587946
- 电子邮件: drlixin@mail.iee.ac.cn
- 所属部门: 多学科交叉中心
- 通讯地址: 北京市中关村北二条6号
2003.3~至今 中国科学院电工研究所多学科交叉中心研究员,课题组长
中国科学院大学教授首席教授《太阳能热发电吸热和储热装备技术》
1999.9~2003.3 浙江大学 工程热物理专业工学博士
1997.9~1999.7 哈尔滨工业大学 热能工程专业工学硕士
1993.9~1997.7 山东大学热能工程专业工学学士
简 历:
international solar energy society会员北京市太阳能热发电技术工程实验室 学术委员会主任(2012~2016)applied energy、energy、solar energy、renewable energy、international journal of heat and mass transfer、journal of solar energy engineering-transactions of the asme、applied thermal engineering、energy conversion and management、journal of renewable and sustainable energy、international journal of thermal sciences、journal of thermal science、sustainable energy technologies and assessments、advances in mechanical engineering、advances in condensed matter physics、mathematical problems in engineering、enviromental progress & sustainable energy、heat transfer research、中国科学、科学通报、中国电机工程学报、太阳能学报、上海交通大学学报、电工电能新技术等杂志审稿人国家科技专家库专家(科技部)欧盟地平线2020项目评审专家智利国家科学与技术委员会(conicyt)国际合作项目评审专家“十三五”能源领域科技发展战略专题专家北京市自然科学基金工程热物理与能源工程学科会议评审专家
社会任职:
1.太阳能热化学制备燃料交叉科学研究
2.太阳能热发电技术中的应用基础研究
3.熔融盐吸热器传热、热应力与疲劳、动态仿真、非稳态测试方法等研究
4.太阳能中高温热利用技术中的工程热物理问题研究
研究方向:
已承担或正在承担的课题:
1.“太阳能全光谱光热耦合分解水制氢基础研究”,国家科技部重点研发计划基础类项目,2018yfb1502005,2019.3~2022.12,课题骨干,经费75万
2.“直接式高温太阳能化学反应器内参与性介质辐射与气固反应流的耦合机理研究”,国家自然科学面上基金,51476163,2015.1~2018.12,负责人,经费80万
3.“可再生能源co2转化制备燃料研究”, y770111csc,2017.1.1~2020.12.31,负责人,经费500万
4.“熔融盐吸热器热性能的动态响应机理及非稳态测试方法研究”,国家自然科学青年基金,51606184,2017.1~2018.12,课题骨干
5.“mw级熔融盐吸热储热关键部件和系统研发”,北京市科委科技计划项目,d121100001012001,2012~2014,负责人,经费:348.44万
6.“电站聚光集热系统研究”,国家科技部863课题,ss2013aa050502,2013~2016,课题骨干,经费380万
7.“大规模太阳能热发电系统集成及调控策略”,国家科技部973课题,2010cb227104,2010~2014,课题骨干
8.“高密度非均匀强热震辐射热流条件下的太阳能吸热器热应力机理研究”,国家自然科学基金,50906078,2010.1~2012.12,负责人,经费20万
9.“高可靠性吸热、传热、蓄热方式的研究和系统建立”,国家科技部863重点课题,2006aa010503,2006.12.1-2010.12.31,课题组长,经费:749万
10.“太阳能热发电站热系统研究与集成”,北京市科委重点项目,d07080600600704,2007.3.31-2010.12.31,课题组长,经费:200万
11.“吸热器安全性技术研究”,中国科学院知识创新工程重要方向项目,kgcx2-yw-316-2,2008.10~2010.12,课题组长,经费:275万
12.“太阳能高温流化床吸热——储热关键技术研究”,国家科技部863探索导向课题,2008.10~2010.12,课题副组长
13.“塔式太阳能电站总体设计技术”,中国科学院知识创新工程重要方向项目,kgcx2-yw-307-1,2006.6~2007.12,课题骨干
14.“碟式聚光太阳热发电系统及关键技术”,国家科技部863课题,2003aa516020,2003.1-2006.12,课题骨干
15.“太阳能聚光方法的研究”,科技部973重点项目子课题,2003cb214505,2005.7.1-2008.6.30,课题成员
16.“mw级太阳能热发电热功转换设备及系统示范平台”,中国科学院知识创新工程重要方向项目,kgcx2-yw-377,2009.7~2011.6,负责人经费:360万
17.“极端条件下熔融盐在太阳能吸热管内耦合传热与强化机理”,国家自然科学基金青年项目,51006096,2011~2013,课题骨干
18.“太阳能热发电用固体颗粒式空气吸热器内传热机理研究”,国家自然科学基金面上项目,51376176, 2014.1~2017.12,课题骨干
承担科研项目情况:
发表国内外论文70余篇,其中以sci,ei收录57篇。申请专利40余项,其中发明专利36项。授权发明专利28项,实用新型专利4项。电工所工作期间发表的主要期刊论文:
?, chun chang, jasurjon s. akhatov, xin li?. numerical study on the directly-irradiated vortex reactor for solar co2 coal gasification. solar energy. 2019,188:573~585(sci,ei)
2., , , . multi-objective optimal analysis on the distributed energy system with solar driven metal oxide redox cycle based fuel production. journal of cleaner production. 2019,233:765~781(sci,ei)
3.tianzeng ma, lei wang, chun chang, jasurjon s.akhatov, mingkai fu*, xin li*. a comparative thermodynamic analysis of isothermal and non-isothermal ceo2-based solar thermochemical cycle with methane-driven reduction. renewable energy. 2019,143:915~921. (sci,ei)
4.mingkai fu, huajun xu, haitao ma and xin li*. . journal of energy chemistry. 2019, 38:177~184 (sci,ei)
5.mingkai fu, tianzeng ma, lei wang, shaomeng dai, zheshao chang, huajun xu, jun liu*, xin li?. hydrogen production via a novel two-step solar thermochemical cycle based on non-volatile geo2. solar energy. 2019,179:30~36(sci,ei)
6.lei wang, tianzeng ma, zheshao chang, hao li, mingkai fu*, xin li*. solar fuels production via two-step thermochemical cycle based on fe3o4/fe with methane reduction. solar energy. 2019,177:772~781(sci,ei)
7.代少猛,常哲韶,常春,李鑫*. 太阳能co2煤气化反应器玻璃窗清洁度的数值模拟. 科学通报,2019,64(5~6):621-623 (ei)
8.li hao, wang lei, fu mingkai*, li xin*. thermodynamic assessment of solar-aided carbon dioxide conversion into fuels via tin oxides. science china technological sciences. 2018,61(12):1779~1787 (sci,ei)
9.chun chang, adriano sciacovelli, zhiyong wu, xin li, yongliang li, mingzhi zhao, jie deng, zhifeng wang, yulong ding. enhanced heat transfer in a parabolic trough solar receiver by inserting rods and using molten salt as heat transfer fluid. applied energy. 2018,220:337~350. (sci,ei)
10.zhang qiangqiang, li xin, wang zhifeng, li zhi, liu hong, li jun. cavity receiver thermal performance analysis based on total heat loss coefficient and efficiency factor. international journal of energy research. 2018,42(6):2284~2289. (sci, ei)
11.qiangqiang zhang, xin li, zhifeng wang, zhi li, hong liu. function testing and failure analysis of control system for molten salt receiver system. renewable energy. 2018,115:260~268. (sci,ei)
12.李浩,李鑫*,常哲韶,李轶男,代少猛. 基于投影寻踪和层次分析的太阳能热化学制燃料的筛选方法. 科学通报. 2017,62(27):3262~3268(ei)
13.廖志荣,李鑫,徐超,张强强,常哲韶,李志. 太阳能热发电站中熔融盐冻堵管道的熔化过程. 科学通报. 2017,62(9):960~966(ei)
14.zheshao chang, xin li*, chao xu, chun change, zhifeng wang, qiangqiang zhang, zhirong liao, qing li. . renewable energy. 2016, 96:190~202. (sci,ei)
15.qiangqiang zhang, xin li, zhifeng wang, jinbai zhang, baligh el-hefni, li xu. modeling and simulation of a molten salt cavity receiver with dymola. energy. 2015,93:1373~1384(sci,ei)
16.zheshao chang, xin li*, chao xu, chun chang, zhifeng wang. numerical simulation on the thermal performance of a solar molten salt cavity receiver. renewable energy. 2014,69:324~335 (sci,ei)
17.zhirong liao, xin li*, zhifeng wang, chun chang, chao xu. phase change of molten salt during the cold filling of a receiver tube. solar energy.2014,101:254~264 (sci,ei)
18.li xu, zhifeng wang, xin li, guofeng yuan, feihu sun, dongqiang lei, shidong li. a comparison of three test methods for determining the thermal performance of parabolic trough solar collectors. solar energy. 2014,99:11~27(sci,ei)
19.zhirong liao, xin li*, chao xu, chun chang, zhifeng wang. allowable flux density on a solar central receiver. renewable energy. 2014,62:747~753 (sci,ei)
20.张强强,李鑫,常春,徐立. 多云气象条件下熔融盐腔式吸热器热性能的研究. 中国电机工程学报. 2014,34(8):1291~1296 (ei)
21.常春,李石栋,李鑫,张强强. . 中国电机工程学报. 2014,34(20):3341~3346 (ei)
22.xu li, wang zhifeng, li xin, yuan guofeng, sun feihu, lei dongqiang. dynamic test model for the transient thermal performance of parabolic trough solar collectors. solar energy. 2013,95:65~78 (sci,ei)
23.徐立,李鑫,原郭丰,孙飞虎,马兴良,闫忠. 太阳位置对抛物面槽式太阳能集热器运行影响. 工程热物理学报. 2013,34(12):1~4(ei)
24.巨星,李鑫,张喜良,徐立. 歧管式微通道热沉在聚光电池冷却中的应用. 中国电机工程学报.2013,33(32):46~53(ei)
25., i, , , . effects of solid particle properties on the thermal performance of a packed-bed molten-salt thermocline thermal storage system. applied thermal engineering. 2013,57:69-80 (sci,ei)
26.qiangqiang zhang, xin li*, chun chang, zhifeng wang, hong liu. an experimental study: thermal performance of molten salt cavity receivers. applied thermal engineering. 2013,50:334~341(sci,ei)
27.qiangqiang zhang, xin li*, zhifeng wang, chun chang, hong liu. experimental and theoretical analysis of a dynamic test method for molten salt cavity receiver. renewable energy. 2013,50:214~221 (sci,ei)
28.chao xu, zhifeng wang, yaling he, xin li, fengwu bai. parametric study and standby behavior of packed-bed molten salt thermocline thermal storage system. renewable energy. 2012,48:1~9 (sci,ei)
29.qiang yu, zhifeng wang, ershu xu, xin li, minghuan guo. modeling and dynamic simulation of the collector and receiver system of 1 mwe dahan solar thermal power tower plant. renewable energy. 2012,43:18~29 (sci,ei)
30.weiqiang kong, zhifeng wang, xing li, xin li, ning xiao. theoretical analysis and experimental veri?cation of a new dynamic test method for solar collectors. solar energy. 2012,86(1): 398~406 (sci,ei)
31.常春,张强强,李鑫. 周向非均匀热流边界条件下太阳能高温吸热管内湍流传热特性研究. 中国电机工程学报. 2012,32(17):104~109(ei)
32.chao xu, zhifeng wang, yaling he, xin li, fengwu bai. sensitivity analysis of the numerical study on the thermal performance of a packed-bed molten salt thermocline thermal storage system. applied energy. 2012, 92: 65~75
33.chao xu, zhifeng wang, xin li, feihu sun. energy and exergy analysis of solar power tower plants. applied thermal engineering. 2011,31: 3904~3913 (sci,ei)
34.xin li*, weiqiang kong, zhifeng wang, chun chang, fengwu bai. thermal model and thermodynamic performance of molten salt cavity receiver. renewable energy.2010,35(5):981~988. (sci,ei)
35.王建楠,李鑫*,常春. 太阳能塔式热发电站熔融盐吸热器过热故障的影响因素分析. 中国电机工程学报. 2010,30(29):107~114(ei)
36.zhifeng wang, xin li, zhihao yao, meimei zhang. concentrating solar power development in china. journal of solar energy engineering, transactions of the asme.2010,132(may) :021203-1~021203-8 (sci,ei)
37.李鑫*,李安定等. 碟式/斯特林太阳能热发电系统经济性分析. 中国电机工程学报. 2005,25(12):108-111 (ei)
38.李鑫*,李安定等. 太阳能制氢研究现状及展望. 太阳能学报. 2005,26(1):127-133 (ei)
主要国际会议论文:
1.zijiang yang, jiahui lu, qiangqiang zhang, zhi li, xin li, zhifeng wang. dynamic modeling of badaling molten salt tower csp pilot plant. aip conference proceedings.2017,1850:160028. solarpace2016, october 11-14, 2016 in abu dhabi, uarab emirates.
2., , , ,, , and . numerical study of cold filling and tube deformation in the molten salt receiver. aip conference proceedings.2017,1850:070007. solarpace2016, october 11-14, 2016 in abu dhabi, uarab emirates.
3.zhi li, xin li, qiangqiang zhang, zhifeng wang, zhirong liao, and chun chang. badaling 1mwt molten salt tower power plant. aip conference proceedings. 2017,1850:030033. solarpace2016, october 11-14, 2016 in abu dhabi, uarab emirates.
4.x.li*, z.f.wang. the required concentration ratio for two stage water/steam receiver. energy procedia. 2015,69:434~443. solarpaces 2014, september 16-19, 2014 in beijing, china(ei)
5.q.q. zhang, x. li, c. chang, z.r. liao, z.f. wang, q. yu. a fast view-factor model on reflection loss calculation of cavity receiver. energy procedia. 2015,69:593~599. solarpaces 2014, september 16-19, 2014 in beijing, china(ei)
6.z.liao, x.li*, z.wang, c.chang, z.li. numerical model and validation for simulating the cold filling molten salt receiver tube. energy procedia. 2015,69:779~789. solarpaces 2014, september 16-19, 2014 in beijing, china(ei)
7.zs chang, x li*, c xu, c chang, zf wang. the design and numerical study of a 2mwh molten salt thermocline tank. energy procedia. 2015,69:779~789. solarpaces 2014, september 16-19, 2014 in beijing, china(ei)
8.c.chang, c.xu, z.y.wu, x.li, q.q.zhang, z.f.wang. heat transfer enhancement and performance of solar thermal absorbers tubes with circumferentially non-uniform heat flux. energy procedia. 2015,69:320~327. solarpaces 2014, september 16-19, 2014 in beijing, china(ei)
9.q.q.zhang, x.li*, c.chang, h.liu, z.f.wang. .energy procedia. 2014:599~606. solarpaces 2013, september 17-20, 2013 in las vegas, usa
10.c.chang, x.li, q.q.zhang. experimental and numerical study of the heat transfer characteristics in solar thermal absorber tubes with circumferentially non-uniform heat flux. energy procedia. 2014:305~313,solarpaces 2013, september 17-20, 2013 in las vegas, usa
11.j.b.zhang, j.c.valle-marcos, b.el-hefni, z.f.wang, g.f.chen, g.c.ma, x.li, r.soler. dynamic simulation of a 1mwe concentrated solar power tower plant system with dymola?. energy procedia. 2014:1592~1602.solarpaces 2013, september 17-20, 2013 in las vegas, usa
12.dong zhe, li xin*, liang wenfeng. concentrated radiation measurement system for solar furnace. 2011 asia-pacific power and energy engineering conference, appeec 2011 – proceedings.2700~2703(ei)
13.xin li*, jiannan wang, chun chang, zhifeng wang. molten salt receiver fault diagnose based on the bp neural network. 18th solarpaces conference. 11. - 14. september 2012, marrakech, morocco
14.xin li*, fengwu bai, xiaona song, chun chang, zhifeng wang. thermal stress and fatigue life analysis of molten salt central receiver. ises solar world congress 2009.south afica, johannesburg. (ei)
15.,, , . thermal performance analysis of silicon carbide ceramic foam used for solar air receiver. ises solar world congress 2009.south africa, johannesburg. (ei)
16.xin li*, zhifeng wang, jian yu, xiaobing liu, jian li, xiaona song. the power performance experiment of dish-stirling solar thermal power system. ises solar world congress 2007,china, beijing. p1858-1862 (ei, istp)
17.xin li*, zhifeng wang, meimei zhang, chun chang . the experimental analysis on thermal performance of a solar dish concentrator. ises solar world congress 2007,china, beijing. p664-670 (ei, istp)
18.chang chun, wang zhifeng, li xin, bai fengwu, kang yongheack, kim jongkyu. analysis of the turbulent heat transfer in solar power tower molten salt receiver tube. ises solar world congress 2007,china, beijing. p1701-1705 (ei, istp)
19.li xin*, li bin, zang chuncheng, zheng fei and li anding. dish/stirling solar power system design and analysis. 2nd international energy conversion engineering conference. 2004, providence, ri, usa. (ei)
国际会议:
1.solarpaces 2016科学委员会委员,阿联酋阿布扎比,2016
2.solarpaces 2015科学委员会委员,南非开普敦,2015
3.ises世界太阳能大会科学委员会委员,韩国大邱,2015
4.solarpaces 2014科学委员会委员,北京,2014
5.2011年“太阳能热发电前沿技术国际研讨会”主题报告,天津,2011
6.ises世界太阳能大会分会主席,北京,2007
著作:
,王志峰,王炳忠,李鑫.《中国电气工程大典》第7卷可再生能源发电工程第3篇太阳能热发电[m],北京:中国电力出版社,2010年1月第1版
2.《中国电力百科全书》新能源发电卷,北京:中国电力出版社,2014年6月第1版
3.王志峰等著. 《太阳能热发电站设计》,北京:化学工业出版社,2014年9月第1版
国家标准:
1.《聚光型太阳能热发电术语》gb/t 26972-2011. 王志峰,李鑫,黄湘等
授权专利:
1.李鑫,臧春城,郑飞,李斌,李安定. 一种太阳能热化学分解水制氢装置,实用新型专利,专利号:zl 200320127837.x
2.李鑫,李安定,郑飞,李斌,臧春城. 一种太阳能热电联供系统,发明专利,专利号:zl 200410009780.2
3.李鑫,廖志荣,王志峰. 一种熔融盐射流冲击吸热器. 发明专利,专利号:zl 201110318283.0
4.李鑫,徐超,白凤武,王志峰,王艳. 太阳能热发电用储热蒸发一体化装置. 发明专利,专利号:zl 201110049637.6
5.李鑫,徐超,常春,白凤武,王志峰. 熔融盐吸热器预热保温防结冻装置. 发明专利,专利号:zl 201210376125.5
6.李鑫,常春,张强强,王志峰. 熔融盐吸热器风致热防冻堵装置. 发明专利,专利号:zl 201410186616.2
7.李鑫、廖志荣、常春、张强强、王艳、王志峰. 熔融盐吸热器超声强化冷充装置.发明专利,专利号:zl 201310697709.7
8.李鑫、张强强、常春、王志峰、白凤武. 一种太阳能气化与发电混合系统. 发明专利,专利号:zl201510472379.0
9.白凤武、王志峰、李鑫. 一种吸热体旋转的容积式吸热器. 发明专利,专利号:zl201410495002.2
10.刘鸿、王志峰、李鑫、常春. 一种熔融盐管道加热装置. 发明专利,专利号:zl 201310628712.3
11.徐超,常哲韶,李鑫,王志峰. 太阳能热发电用单罐-双罐复合储热系统及储热方法. 发明专利,专利号:zl 201310173340.x
12.张亚南、白凤武、王方舟、王艳、张喜良、李鑫、王志峰、廖志荣. 太阳能热发电用内循环式固体颗粒空气吸热器. zl 201310129899.2
13.张亚南,白凤武,王志峰,李鑫. 用于太阳能热发电站的固体粒子空气吸热器. 发明专利,专利号:zl 201210256902.2
14.李石栋,王志峰,徐二树,李鑫,徐超,白凤武. 一种熔盐蒸汽发生器. 发明专利,专利号:zl 201210514033.9
15.徐超,王志峰,李鑫,白凤武,张剑寒. 一种塔式太阳能热发电用板式吸热器. 发明专利,专利号:zl 201110425035.6
16.张强强,李鑫,常春,王志峰,白凤武,刘鸿. 一种空气和熔融盐复合式吸热器. 发明专利,专利号:zl 201110139329.2
17.菅泳仿,王志峰,王艳,白凤武,徐超,李鑫. 一种直接发生蒸汽的高温混凝土储热器. 发明专利,专利号:zl 201110096656.4
18.常春,王志峰,李鑫,白凤武,王艳,菅泳仿,张强强. 一种高温储热蒸发一体化装置. 发明专利,专利号:zl 201110089465.5
19.白凤武,王志峰,李鑫,张喜良.一种太阳能碟式聚光器聚光性能测试方法及测试装置. 发明专利,专利号:zl 201110131658.2
20.王艳,王志峰,白凤武,李鑫,常春. 一种显热-潜热复合储热器. 发明专利,专利号:zl 201010105255.6
21.王艳,白凤武,王志峰,刘鸿,李鑫,常春. 碳化硅泡沫陶瓷增强辐射吸收的高温空气电阻炉. 发明专利,专利号:zl 201010231334.1
22.白凤武,王志峰,王艳,李鑫. 一种太阳能热发电站用吸热体旋转式空气吸热器,发明专利,专利号:zl 200910243555.8
23.王志峰,白凤武,李鑫. 太阳能热发电用球流吸热器,发明专利,专利号:zl 200910090284.7
24.王志峰,常春,白凤武,李鑫,吕珂可. 一种被动式熔融盐吸热器,发明专利,专利号:zl 200810102397.x
25.白凤武,王志峰,李鑫,吴治永,张劲松,田冲,曹小明. 一种太阳能热发电站用承压式空气吸热器,发明专利200810115463.7,专利号:zl 200810115463.7
26.王志峰,李鑫,白凤武. 用于太阳能塔式热发电的流化床高温吸热器及其“吸热—储热”双流化床系统,发明专利,专利号:zl 200710099040.6
. 一种太阳能塔式热发电站用高温吸热器,发明专利,专利号:zl 200710065553.5
28.王志峰,白凤武,李鑫,张劲松. 一种碳化硅泡沫陶瓷太阳能空气吸热器,发明专利,专利号:zl 200710099039.3
29.郑飞,李安定,李斌,李鑫,臧春城. 太阳能中温生活供热系统,实用新型专利,专利号:zl200420009887.2
30.李斌,李安定,臧春城,郑飞,李鑫.一种张膜式反光镜的焦距控制与测量方法及装置,发明专利,专利号:zl 200310121159.0
31.郑飞,李安定,杨培尧,李斌,臧春城,李鑫. 太阳跟踪控制器,实用新型专利,专利号:zl 200320127758.9
32.臧春城,李斌,李鑫,郑飞,杨培尧,李安定. 双向链传动张紧装置,实用新型专利,专利号:zl 200320127759.3
代表论著:
专利申请:
1.2014年
2.2011年科技部“十一五”国家科技计划执行优秀团队奖
3.2016年《太阳能热发电站设计》获得2016年中国石油和化学工业优秀出版物奖图书奖一等奖
4.2018届硕士研究生李浩获国家奖学金、2017~2018年度优秀毕业生
5.作为首席教授《太阳能热发电吸热和储热装备技术》课程获得中国科学院大学工程科学学院2017~2018年度研究生“优秀课程”奖
6.2018年度中国科学院电工研究所“优秀导师奖”