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王富强
2023-05-10 20:18
  • 王富强
  • 王富强 - 博士 教授 博导-哈尔滨工业大学(威海)-新能源学院-个人资料

近期热点

资料介绍

个人简历


招生计划
硕士生:3~4名/年;
博士生:1~2名/年;
获奖情况
黑龙江省人民政府:黑龙江省自然科学奖一等奖,太阳能高温光热转换中的能流输运机理研究(谈和平,帅永,王富强,袁远,李栋);
教育部国务院学位委员会:2011年度博士学术新人奖,王富强;
人才计划
2018年山东省泰山青年学者;
2016年度青年拔尖人才计划-教授,哈尔滨工业大学(100万);
学习简历
2009年08月–2012年07月 哈尔滨工业大学 工程热物理专业 博士
2005年08月–2007年07月 哈尔滨工业大学 热能工程专业 硕士
2001年09月—2005年07月 中国石油大学(华东) 热能与动力工程专业 本科
工作简历
2016年12月至今 哈尔滨工业大学 教授
2014年03月–2016年12月 哈尔滨工业大学(威海) 副教授
2012年07月–2014年03月 中国石油大学(华东)热能与动力工程系 讲师
2007年07月–2009年04月 卡特彼勒有限公司青岛研发中心冷却部门 助理工程师
纵向科研项目
1)山东省泰山青年学者(山东省+威海市+哈工大:50万+50万+50万;主持);
2)太阳能热利用中的工程热物理问题(哈尔滨工业大学青年拔尖教授计划,100万;主持)
3)太阳能高温热化学转换过程中粒子系的光谱辐射传输机理及调控机制(国家自然科学基金-面上,60万;主持)
4)哈工大重点培育基金(50万;主持)
5)时空非线性强能流下聚集系统光热力场交互耦合机理与能流分布控制 (国家自然科学基金-青年,26万;主持)
6)太阳能热化学反应中高温稠密粒子系表观光谱热辐射特性及光热传输机理研究(山东省自然科学基金,5万;主持)
7)高温熔盐基础辐射物性测量与辐射及其耦合传热过程研究(博士后特别资助基金,15;主持);
8)太阳能热化学反应中高温弥散介质的光热传输机理研究 (博士后一等资助基金,8万;主持);
9)高温太阳能海水淡化系统的性能优化与匹配综合评价研究(哈工大(威海)学科引导基金,编号:WH20140208,主持)
10)高汇聚太阳热流下甲烷水蒸汽重整制氢的基础研究 (青岛市科技计划项目基金,编号:No. 14-2-4-43-jch,主持)
11)两级太阳能聚光系统的光热力耦合特性的研究 (哈尔滨工业大学科研创新基金,编号:HIT. NSRIF. 2015117,主持)12)太阳能多孔介质吸热器的光热力耦合特性研究 (中央高校基本科研业务费,编号:14CX02079A,主持)
13)太阳能热化学反应中金属氧化物光谱辐射特性演变与输运(国家自然科学基金,编号:51276049,参与)
14)非光滑折射率介质热辐射传递 (国家自然科学基金,编号:51176040,参与)
15)中广核企业合作项目(89万;主持)
已申请、授权发明专利
王富强,谈和平,张旭升,易红亮,帅永,袁远. 圆柱与圆锥复合腔体式太阳能吸热器. 2013.04, 中国, 专利号ZL 201210056836.4(已授权)
王富强, 帅永, 袁远, 刘彬, 谈和平. 一种底面内凸起圆柱形腔体式太阳能吸热器. 2013.01,中国,专利号ZL 201110233330.1(已授权)
王富强,巩亮, 李夏赟, 魏东兰, 张慧, 林日亿, 帅永, 秦爱民, 孟凡军, 刘娟娟, 初小林. 一种具有减压和降低热应力功能的两级汇聚式太阳能聚光系统. 2014.10, 中国,专利号ZL 201320043114.5(已授权)
谈和平,王富强,帅永,袁远,刘彬. 一种底面内凸式倒平顶锥形腔式太阳能吸热器. 2013.03,中国,专利号ZL 201110233099.6(已授权)
刘彬,王富强,帅永,谈和平,袁远. 含有宽带隙半导体选择性透过涂层光学窗口的底面内凸式正平顶锥形腔式太阳能吸热器. 2013.03,中国,专利号ZL 201110233167.9(已授权)
王富强,徐会金,巩亮,黄善波,徐明海. 一种碟式太阳能聚光光伏电池板的冷却装置, 2013.10,中国,申请号201310524685.5(已公开)
王富强,林日亿,巩亮,王新伟,罗建军. 一种含有汇聚光学窗口的预置式聚集太阳能熔覆反应器. 2012.10,中国,申请号201210404042.2(已公开)
巩亮,王富强,黄善波,林日亿,闫凯,曹营,李夏赟,魏东兰,张慧. 含有汇聚功能黑体腔的两级抛物型槽式太阳能聚集系统. 2012.12,中国,申请号201210596262.X(已公开)
巩亮,王富强,黄善波,林日亿,帅永,初小林,刘娟娟. 一种无需玻璃罩的管式太阳能集热器. 2013.03,中国,申请号201310101934.X(已公开)

研究领域


"1.太阳能热利用;2.辐射传热学;3.太阳能热化学"

近期论文


注:2019年发表SCI论文9篇(统计截止:2019年3月12日)
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1)Wang Fu–Qiang*,Jing Lin, Cheng Zi–Ming,Liang Hua–Xu,Tan Jian–Yu.Combination of thermodynamic analysis and regression analysis for steam anddry methane reforming. International Journal of Hydrogen Energy,2019,XX:XXX–XXX(SCI、EI,IF=4.229,Top期刊)
2)Cheng Zi–Ming,Wang Fu–Qiang*,Wang Hao,Liang Hua–Xu,MaLan–Xin.Effect of embedded polydisperse glass microspheres on radiative cooling of a coating.International Journal of Thermal Sciences,2019,XX:XXX–XXX(SCI,IF=3.361)
3)XuHui–Jin,Xing Zhan–Bin,Wang Fu–Qiang*,Cheng Zi–Ming.Review on heat conduction, heat convection, thermal radiation and phase change heat transfer of nanofluids in porous media: Fundamentals and applications.Chemical Engineering Science,2019,195:462–483(SCI、EI,IF=3.306,Top期刊)
4)Wang Fu–Qiang,Wang Hao,Gong Da–Yang,Cheng Zi–Ming*,Ma Lan–Xin.Radiative transfer analysis of semitransparent medium with particles having non-uniform size distribution by differential-integration method.International Journal of Heat and Mass Transfer,2019,130:342–355(SCI、EI,IF=3.458,Top期刊)
5)Liang Hua-Xu,Wang Fu-Qiang*,Li Dong,Zhu Jie,Tan Jian-Yu.Optical properties and transmittances of ZnO-containing nanofluids in spectral splitting photovoltaic/thermal systems. International Journal of Heat and Mass Transfer,2019,128:668–678(SCI、EI,IF=3.458,Top期刊)
6)Cheng Zi–Ming,Yu Rui–Tian,Wang Fu–Qiang*,Liang Hua–Xu,Xie Ming,Li Dong,Tan Jian–Yu.Coupled heat transfer analyses of molten salt with thermophysical property variation. Heat Transfer Research,2019,50(1):33–56(SCI,IF=0.404)
7)Wang Qiu–Shi,WeiWei,Li Dong*,Qi Han–Bing,Wang Fu–Qiang,ArıcıMüslüm*.Experimental investigation of thermal radiative properties of Al2O3-paraffin nanofluid.Solar Energy,2019,177:420–426(SCI、EI,IF=4.374)8)Qi Han–Bing,Zhang Yu–Jia,Wang Qiu–Shi,Wang Fu–Qiang,Ahmed Kadhim Hussein,ArıcıMüslüm*,Dong Li*.Experimental investigation of optical properties of oilysewage with different pH environment.Optik,2019,183:338–345(SCI、EI,IF=0.835)
9)Chen Xue,Sun Chuang*,Xia Xin-Lin,Liu Rong-Qiang,Wang Fu-Qiang.Conjugated heat transfer analysis of a foam filled double-pipe heat exchanger for high-temperature application.International Journal of Heat and Mass Transfer,2019,134:1003–1013(SCI、EI,IF=3.458,Top期刊)
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注:2018年发表SCI论文12篇
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10)Chen Xue,Wang Fu–Qiang*,Han Ya–Fen,Yu Rui–Tian,Cheng Zi–Ming.Thermochemical storage analysis of the dry reforming of methane in foam solar reactor.Energy Conversion and Management,2018,158:489–498(SCI、EI,IF=6.377,一区、Top期刊)
11)Chen Xue,Wang Fu–Qiang*,Yan Xue–Wei,Han Ya–Fen,Cheng Zi–Ming,Zhu Jie.Thermochemical performance of solar driven CO2 reforming of methane in volumetric reactor with gradual foam structure.Energy,2018,151:545–555. (SCI、EI,IF=4.968,一区、Top期刊)
12)Chen Xue,Wang Fu–Qiang*,Yan Xue–Wei,Cheng Zi–Ming,Han Ya–Fen,Zhu Jie.Thermal and chemical analysis of methane dry reforming in a volumetric reactor under highly concentrated solar radiation.Solar Energy,2018,162:187–195(SCI、EI,IF=4.374)
13)Wang Fu–Qiang,Jin Hui–Jian,Wang Hao,Cheng Zi–Ming,Tan Jian–Yu*,Yuan Yuan,Shang Yu–Hang,Zhang Wen–Jie.Radiative, conductive and laminar convective coupled heat transfer analysis of molten salts based on finite element method.Applied Thermal Engineering,2018,131:19–29(SCI、EI,IF=3.771,一区、Top期刊)
14)Cheng Zi–Ming,Wang Fu–Qiang*,Liang Hua–Xu,Hu Sheng–Peng,Lin Bo,Tan Jian–Yu,Li Hong–Yang.Photon-absorption-based explanation of ultrasonic-assisted solar photochemical splitting of water to improve hydrogen production. International Journal of Hydrogen Energy,2018,43(31):14439–14450(SCI、EI,IF=4.229,Top期刊)
15)Cheng Zi–Ming,Yu Rui–Tian, Wang Fu–Qiang*,Liang Hua–Xu,Lin Bo,Wang Hao,Hu Sheng–Peng,Tan Jian–Yu,Zhu Jie,Yan Yu–Ying.Experimental study on the effects of light intensity on energy conversion efficiency of photo-thermo chemical synergetic catalytic water splitting. Thermal Science,2018,22(S2):S697–S706(SCI、EI,IF=1.431)
16)Li Su-Ning,Yuan Yuan*,Liu Bin,Wang Fu-Qiang*,Tan He-Ping.Influence of microlens array manufacturing errors on light-field imaging.Optics Communications,2018,410:40–52(SCI、EI,IF=1.887)
17)Zhang Chuan-Xin,Yuan Yuan*,Yu Zhao-Yang,Wang Fu-Qiang*,Tan He-Ping.Inversion of stellar spectral radiativeproperties based on multiple starcatalogues. Journal of Cosmology and Astroparticle Physics,2018,09:26(SCI、EI,IF=5.126,Top期刊,JCR一区)
18)Li Tian-Jiao,Li Su-Ning,Yuan Yuan*,Wang Fu-Qiang,Tan He-Ping*.Light field imaging analysis of flame radiative properties based on Monte Carlo method.International Journal of Heat and Mass Transfer,2018,119:303–311.(SCI、EI,IF=3.458,Top期刊)
19)Li Dong,Wu Xiao-Yan,Zhang Guo-Jun,Arıcı Müslüm*,Liu Chang-Yu*,Wang Fu-Qiang.Influence of glazed roof containing phase change material on indoor thermal environment and energy consumption.Applied Energy,2018,222:343–350(SCI、EI,IF=7.182,Top期刊)
20)Li Su-Ning,Yuan Yuan*,Liu Bin,Wang Fu-Qiang,Tan He-Ping.Local error and its identification for microlens array in plenoptic camera.Optics and Lasers in Engineering,2018,108:41–53(SCI、EI,IF=2.442)
21)Zhang hao,LougouBachirou-Guene,PanRu-Ming,ShuaiYong*,Wang Fu-Qiang,Cheng Zi–Ming,Tan He-Ping.Analysis of thermal transport and fluid flow in high-temperature porous media solar thermochemical reactor.Solar Energy,2018,173:814–824(SCI、EI,IF=4.374)
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注:2017年发表SCI论文10篇
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22)Wang Fu-Qiang,Cheng Zi-Ming,Tan Jian-Yu*,Yuan Yuan,Shuai Yong,Liu Lin-Hua.Progress in concentrated solar power technology with parabolic trough collector system: a comprehensive review.Renewable and Sustainable Energy Reviews,2017,79:1314–1328(SCI、EI,IF=8.050,入选ESI高引、热点,Top期刊)
23)Wang Fu-Qiang,Ma Lan-Xin,Cheng Zi-Ming,Tan Jian-Yu*,Huang Xing,Liu Lin-Hua.Radiative heat transfer in solar thermochemical particle reactor: A comprehensive review.Renewable and Sustainable Energy Reviews,2017,73:935–949(SCI、EI,IF=8.050,Top期刊)
24)Liang Hua-Xu,Wang Fu-Qiang*,Cheng Zi-Ming,Hu Sheng-Peng,Xiao Bing,Gong Xiang-Tao,Lin Bo,Li Xiang-Zheng,Cao Rui-Yang,Liang Wen,Liu Lin-Hua.Analyzing the effects of reaction temperature on photo-thermo chemical synergetic catalytic water splitting under full-spectrum solar irradiation: An experimental and thermodynamic investigation.International Journal of Hydrogen Energy,2017,42(17):12133–12142(SCI、EI,IF=3.582,Top期刊)
25)Cheng Zi-Ming,Wang Fu-Qiang*,Xie Yin-Mo,Ma Lan-Xin,Xu Hui-Jin,Tan Jian-Yu,Bai Feng-Wu.Investigation of optical properties and radiative transfer of sea water-based nanofluids for photocatalysis with different salt concentrations.International Journal of Hydrogen Energy,2017,42(43):26626–26638(SCI、EI,IF=3.582,Top期刊)
26)Gong Xiang-Tao,Wang Fu-Qiang*,Wang Hai-Yan,Tan Jian-Yu,Lai Qing-Zhi,Han Huai-Zhi.Heat transfer enhancement analysis of tube receiver for parabolic trough solar collector with pin fin arrays inserting.Solar Energy,2017,144:185–202(SCI、EI,IF=4.018,入选ESI高引)
27)Wang Fu–Qiang,Cheng Zi-Ming,Tan Jian–Yu*,Zhang Jia-Qi,Leng Yu,Liu Lin-Hua.Energy storage efficiency analyses of CO2 reforming of methane in metal foam solar thermochemical reactor.Applied Thermal Engineering,2017,111:1091–1100(SCI、EI,IF=3.356,Top期刊)
28)Wang Fu–Qiang,Ma Lan-Xin,Tan Jian–Yu*, Guan Zhen–Nan,Liu Lin-Hua.Optical constant measurements of solar thermochemical reaction catalysts and optical window.Optik,2017,131:323–334(SCI、EI,IF=0.835)
29)Tan Jian–Yu,Xie Yin–Mo,Wang Fu–Qiang*,Jing Lin,Ma Lan–Xin.Investigation of optical properties and radiative transfer of TiO2 nanofluids with the consideration of scattering effects.International Journal of Heat and Mass Transfer,2017,115:1103–1112.(SCI、EI,IF=3.458,Top期刊)
30)Ma Lan–Xin,Tan Jian–Yu*,Zhao Jun–Ming*,Wang Fu–Qiang,Wang Cheng–An.Multiple and dependent scattering by densely packed discrete spheres: Comparison of radiative transfer and Maxwell theory.Journal of Quantitative Spectroscopy and Radiative Transfer,2017,187:255–266(SCI、EI,IF=2.419)
31)Ma Lan–Xin,Tan Jian–Yu*,Zhao Jun–Ming*,Wang Fu–Qiang,Wang Cheng–An,Wang Yan–Yan.Dependent scattering and absorption by densely packed discrete spherical particles: Effects of complex refractive index.Journal of Quantitative Spectroscopy and Radiative Transfer,2017,196:94–102(SCI、EI,IF=2.419)
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注:2016年发表SCI论文4篇
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32)Wang Fu–Qiang,Lai Qing–Zhi,Han Huai–Zhi,Tan Jian–Yu*.Parabolic trough receiver with corrugated tube for improving heat transfer and thermal deformation characteristics. Applied Energy,2016,164:411–424(SCI、EI,IF=7.182,入选ESI高引论文,Top期刊)
33)Wang Fu-Qiang,Tang Zhe-Xiang, Gong Xiang-Tao, Tan Jian-Yu*, Han Huai-Zhi, Li Bing-Xi.Heat transfer performance enhancement and thermal strain restrain of tube receiver for parabolic trough solar collector by using asymmetric outward convex corrugated tube. Energy,2016,114:275–292(SCI、EI,IF=4.520,入选ESI高引、热点论文,Top期刊)
34)Wang Fu-Qiang,Guan Zhen-Nan, Tan Jian-Yu*, Ma Lan-Xin, Yan Zhen-Yu, Tan He-Ping.Transient thermal performance response characteristics of porous-medium receiver heated by multi-dish concentrator. International Communications in Heat and Mass Transfer,2016,75:36-41(SCI、EI,IF=3.718)
35)Sitian Qin, Yadong Liu, Xiaoping Xue*, Fuqiang Wang. A neurodynamic approach to convex optimization problems with general constraint. Neural Networks,2016,84:113-124(SCI、EI,IF=5.287)
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注:2015年SCI论文7篇
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36)Wang Fu–Qiang,Tan Jian–Yu*,Jin Hui–Jian,Leng Yu.Thermochemical performance analysis of solar driven CO2 methane reforming.Energy,2015,91:645–654(SCI、EI,IF=4.520,Top期刊)
37)Wang Fu–Qiang,Tan Jian–Yu*,Ma Lan–Xin,Wang Cheng–Chao.Effects of glass cover on heat flux distribution for tube receiver with parabolic trough collector system.Energy Conversion and Management,2015,90:47–52(SCI、EI,IF=5.589,入选ESI高引论文,Top期刊)
38)Wang Fu–Qiang,Tan Jian–Yu*,Ma Lan–Xin,Leng Yu.Effects of key factors on solar aided methane steam reforming in porous medium thermochemical reactor.Energy Conversion and Management,2015,103:419–430(SCI、EI,IF=5.589,Top期刊)
39)Ma Lan–Xin,Wang Fu–Qiang*,Wang Cheng–An,Wang Cheng–Chao,Tan Jian–Yu.Monte Carlo simulation of spectral reflectance and BRDF of the bubble layer in the upper ocean.Optics Express,2015,23(9):24274–24289(SCI、EI,IF=3.488,Top期刊)
40)Wang Fu–Qiang*,Shuai Yong*,Tan He–Ping,Gong Liang.Proposal of a shape layout of trapezoid cavity receiver to improve optical efficiency.Heat Transfer Research,2015,46(5),429–446(SCI、EI,IF=0.477)
41)Ma Lan–Xin,Wang Fu–Qiang*,Wang Cheng–An,Wang Cheng–Chao,Tan Jian–Yu.Investigation of the spectral reflectance and bidirectional reflectance distribution function of sea foam layer by the Monte Carlo method.Applied Optics,2015,54(33):9863–9874(SCI、EI,IF=1.784)
42)Wang Fu–Qiang,Guan Zhen–Nan,Tan Jian–Yu*,Yan Zhen–Yu,Leng Yu.Unsteady state thermochemical performance analyses of solar driven steam methane reforming in porous medium reactor.Solar Energy,2015,122:1180–1192(SCI、EI,IF=4.018)
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注:2014年SCI论文5篇
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43)Wang Fu–Qiang,Tan Jian–Yu*,Wang Zhi–Qiang.Heat transfer analysis of porous media receiver with different transport and thermophysical models using mixture as feeding gas.Energy Conversion and Management,2014,83:159–166(SCI、EI,IF=5.589,入选ESI高引论文,Top期刊)
44)Wang Fu–Qiang,Tan Jian–Yu*,Shuai Yong,Gong Liang,Tan He–Ping.Numerical analysis of hydrogen production via methane steam reforming in porous media solar thermochemical reactor using concentrated solar irradiation as heat source.Energy Conversion and Management,2014,87:956–964(SCI、EI,IF=5.589,Top期刊)
45)Wang Fu–Qiang,Tan Jian–Yu*,Shuai Yong,Tan He–Ping,Leng Yu.Thermal performance analysis of porous medium solar receiver with quartz window to minimize heat flux gradient.Solar Energy,2014,108:348–359(SCI、EI,IF=4.018)
46)Wang Fu–Qiang,Tan Jian–Yu*,Shuai Yong*,Tan He–Ping,Chu Shuang–xia.Thermal performance analyses of porous media solar receiver with different irradiative transfer models.International Journal of Heat and Mass Transfer,2014,78:7–16(SCI、EI,IF=3.458,Top期刊)
47)Wang Fu–Qiang*,Shuai Yong*,Wang Zhi–Qiang,Leng Yu,Tan He–Ping.Thermal and chemical reaction performance analyses of steam methane reforming in porous media solar thermochemical reactor.International Journal of Hydrogen Energy,2014,39(2):718–730(SCI、EI,IF=3.582,入选ESI高引论文,Top期刊)
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注:2013年发表SCI论文4篇
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48)Wang Fu–Qiang*,Shuai Yong*,Tan He–Ping,Yu Chun–Liang.Thermal performance analysis of porous media receiver with concentrated solar irradiation.International Journal of Heat and Mass Transfer,2013,62:247–254(SCI、EI,IF=3.458,入选ESI高引论文,Top期刊)
49)Wang Fu–Qiang*,Shuai Yong*,Tan He–Ping,Lin Ri–Yi,Cheng Peng.Researches on a new type of solar surface cladding reactor with concentration quartz window.Solar Energy,2013,94:177–181(SCI、EI,IF=4.018)
50)Wang Fu–Qiang*,Shuai Yong*,Tan He–Ping,Zhang Xiao–Feng,Mao Qian–Jun.Heat transfer analyses of porous media receiver with multi–dish collector by coupling MCRT and FVM method.Solar Energy,2013,93:158–168(SCI、EI,IF=4.018)
51)Wang Fu–Qiang*,Lin Ri–Yi,Liu Bin,Tan He–Ping,Shuai Yong*.Optical efficiency analysis of cylindrical cavity receiver with bottom surface convex.Solar Energy,2013,90:195–204(SCI、EI,IF=4.018)
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注:2012年发表SCI论文1篇
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52)Wang Fu–Qiang*,Shuai Yong,Yuan Yuan,Liu Bin.Effects of material selection on the thermal stresses of tube receiver under concentrated solar irradiation.Materials and Design,2012,33:284–291(SCI、EI,IF=4.364,Top期刊)
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注:2011年发表SCI论文1篇
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53)Shuai Yong*,Wang Fu–Qiang,Xia Xin–Lin,Tan He–Ping*,Liang Ying–Chun.Radiative properties of a solar cavity receiver/reactor with quartz window.International Journal of Hydrogen Energy,2011,36(19):12148–12158(SCI、EI,IF=3.582,一作为博士副导师,Top期刊)
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注:2010年发表SCI论文3篇
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54)Wang Fu–Qiang,Shuai Yong,Yuan Yuan,Yang Guo,Tan He–Ping*.Thermal stress analysis of eccentric tube receiver using concentrated solar radiation.Solar Energy,2010,84:1809–1815(SCI、EI,IF=4.018)
55)Yuan Yuan,Yi Hong–Liang,Shuai Yong,Wang Fu–Qiang,Tan He–Ping*.Inverse problem for particle size distributions of atmospheric aerosols using stochastic particle swarm optimization.Journal of Quantitative Spectroscopy and Radiative Transfer,2010,111(14):2106–2114(SCI、EI,IF=2.419)
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注:2008年发表SCI论文1篇
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56)Chen Zhichao,Li Zheng–Qi*,Wang Fu–Qiang,Jing Jian–Ping,Chen Li–Zhe,Wu Shao–Hua.Gas/particle flow characteristics of a centrally fuel rich swirl coal combustion burner.Fuel,2008,87(10),2102–2110(SCI、EI,IF=3.611,Top期刊)
57)Chen Zhi–Chao,Li Zheng–Qi*,Jing Jian–Ping,Wang Fu–Qiang, Chen Li–Zhe,Wu Shao–Hua.The influence of fuel bias in the primary air duct on the gas/particle flow characteristics near the swirl burner region.Fuel Processing Technology,2008,89(10),958–965(SCI、EI,IF=3.847)
《Solar Energy》《International Journal of Heat and Mass Transfer》《Renewable Energy》《Energy & Fuels》《ASME Journal of Heat Transfer》《Energy Conversion and Management》《International Journal of Hydrogen Energy》《Scientific Reports》《PLOS ONE》等SCI期刊通讯审稿人;国内《东南大学学报》、《中国石油大学学报》、《科学通报》等期刊通讯审稿人;
《Renewable Energy》2014年度最佳审稿人(Best Reviewer Award);
印度理工学院(Indian Institute of Technology)博士学位论文通讯评审专家;

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