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李兴财

发布日期:2016-06-30  来源:   浏览次数:

一、基本信息

姓名:李兴财

学位:博士

职称:教授(博士研究生导师)

个人荣誉:入选自治区科技创新领军人才、“国内引才”312计划、宁夏青年科技人才托举工程、“西部之光”人才引进培养计划、“西部之光”访问学者等人才计划,并兼任中国青年科技工作者协会委员、宁夏青年科技工作者协会理事。

电子邮件nxulixc2011@126.com

研究领域:电磁散射仿真与应用,太阳能发电技术,颗粒物理等。

基本信息:宁夏中卫市人,生于1984年3月,于2011年6月博士毕业于兰州大学风沙环境力学小组,同年7月来校工作。2014年晋升为副教授,2020年晋升为教授。现为物理学专业硕/博士研究生导师、电子信息专业学位硕士研究生导师。到校工作以来,已主持完成国家自然科学基金项目3项,宁夏自然科学基金重点项目、宁夏科技支撑计划项目、宁夏重点研发计划项目各1项,作为核心成员参与申报并完成国家自然科学基金、科技部国际合作专项各1项。截止目前发表科研论文30余篇,授权发明专利5项(转化1项)。指导电子信息专业硕士研究生获中国研究生电子设计竞赛西北赛区选拔赛二等奖5次、三等奖2次。

获奖情况:获第一届宁夏大学“科技创新工作先进工作者”称号;获宁夏科技进步奖二等奖1次;获“宁夏自然科学优秀学术论文”一等奖、二等奖、三等奖各1项。

教学情况:目前主讲硕士生《学术论文写作与指导》,博士生《现代数学方法与应用》等课程。

科研项目:

国家自然科学基金项目

1.风沙静电场作用下带电沙尘颗粒对电磁波传输过程的影响,国家自然科学基金青年项目,2014.1-2016.12,主持,经费28万元;

2.带电沙尘暴中的辐射传输理论研究,国家自然科学基金地区项目,2016.1-2019.12,主持,经费55.8万元;

3.风沙环境下非均匀分布积尘对光伏板发电性能影响机理及其预测模型研究,国家自然科学基金地区项目,2021.1-2024.12,主持,经费38万元;

省部级科学基金项目

1.荒漠化地区光伏电能高效预测关键技术合作研究,宁夏回族自治区重点研发计划项目,2018.1-2020.12,主持,经费90万元;

2.荒漠区光伏电站发电量预测的参数化模型,西部之光西部青年学者A类项目,2017.11-2019.11,主持,经费10万元;

3.沙漠边缘地表植被的环境胁迫及其旱作恢复技术研究,宁夏科技支撑计划项目,2013.10-2015.10,主持,经费15万元;

4.沙尘暴中的风沙电现象及其应用基础研究,宁夏自然科学基金重点项目,2012.10-2014.10,主持,经费6万元;

5.沙漠腹地沙尘监测与信息获取技术合作研究,科技部国际合作项目,2011.12-2014.12,核心参与,经费475万元;

研究生培养:已毕业硕士研究生12人,在读硕士研究生6人,博士研究生2人。

科研组QQ群:22096173

代表论文

[1]Li Xingcai*, Zhang Beidou, 2013,The electromagnetic scattering of the charged inhomogeneous sand particle, Journal of Quantitative Spectroscopy and Radiative Transfer(SCI-2区),119, 150-154

[2]Li Xingcai*, Zhang Beidou, 2013,An equivalent solution for the electromagnetic scattering of multilayer particle, Journal of Quantitative Spectroscopy and Radiative Transfer(SCI-2区), 129,236-240

[3]Li Xingcai*, Liu Dandan, Min Xing, 2014,The electric field in sandstorm can strongly affect the sand׳s scattering, Journal of Quantitative Spectroscopy and Radiative Transfer(SCI-2区),149,103-107

[4]李兴财*,刘丹丹,2014,蔽日黄沙迥不同,神奇静电匿其中——漫话沙尘中的静电现象,现代物理知识,26(2):13-18【编辑邀稿】

[5]Li Xingcai*, Liu Dandan, Min Xing, 2014,Rayleigh approximation for the scattering of small partially charged sand particles,Journal of the Optical Society of Smerica A(SCI-3区), 31(7):1495:1501【selected by the Editors for publication in the Virtual Journal for Biomedical Optics (VJBO)】

[6]闵星,李兴财*,李新碗,马鑫,2015,带电沙尘暴对电磁波传播过程的影响,光学学报,35(1):0129001。

[7] Zhang Beidou,Li Xingcai*, 2014, Electromagnetic scattering by a partially charged multilayered sphere,Journal of Quantitative Spectroscopy and Radiative Transfer(SCI-2区),148,228-232

[8]Li Xingcai*, Zhang Beidou, Wang Minzhong, 2016, Equivalent Medium Theory of Layered Sphere Particle with Anisotropic Shells, Journal of Quantitative Spectroscopy and Radiative Transfer(SCI-2区),179,165~169

[9]Li Xingcai*, Beidou Zhang, 2017, Effects of humidity and temperature on the optical properties of wet sand, Journal of Quantitative Spectroscopy & Radiative Transfer(SCI-2区), 202: 6-12

[10]Li Xingcai*, Niu Kun, 2018, Effectively predict the solar radiation transmittance of dusty photovoltaic panels through Lambert-Beer law, Renewable Energy(SCI-2区),123: 634-638.

[11]Lixingcai*,Gao Xuan, Wang Juan, 2019, Eletromagnetic scattering of charged particles in a strong wind-blown sand electric field, Chin. Phys. B, 28(3):034208

[12]Gao Xuan,Li Xingcai*, Wang Juan, 2019,Comparative Research on Two Surface Conductivity Models for the Scattering of Electromagnetic Wave by the Charged Sphere,Journal of Quantitative Spectroscopy and Radiative Transfer(SCI), 224:378-382

[13] Wang Juan,Li Xingcai*, Wang Minzhong, 2019,Theoretical analysis of potential applications of microwave radar for sandstorm detection,Theoretical and Applied Climatology, 137(3-4), 3209-3214

[14] Tianxing Wang, Jiancheng Shi, Husi Letu, Ya Ma,Xingcai Li, Yaomin Zheng, 2019,Detection and Removal of Clouds and Associated Shadows in Satellite Imagery Based on Simulated Radiance Fields, Journal of Geophysical Research: Atmospheres,124(13),7207-7225

[15]Xingcai Li*, XuanGao, JuanWang, 2020, Modeling the microwave emission of a moist granular medium, Journal of Quantitative Spectroscopy and Radiative Transfer(SCI), 241:106716

[16]王娟,李兴财*.沙尘暴过程中5~7 000 m高度大气电场及其对颗粒带电量影响.中国沙漠,2020,40( 1) : 23-28

[17]Luyao Xu,Shiyuan Li,Junmei Jiang,Tiansheng Liu,Haozhe Wu,Juan Wang,Xingcai Li*,The influence of dust deposition on the temperature of soiling photovoltaic glass under lighting and windy conditions,Solar Energy(SCI),2020,199: 491-496

[18]Xingcai Li*,Tiansheng Liu, Juan Wang, Luyao Xu, Zhengcai Zhang*, Dust Deposition can Focus Light at a Limited Distance on Photovoltaic Panels, Journal of Quantitative Spectroscopy and Radiative Transfer(SCI), 2020, 246:106921.

[19] Wang, TX (Wang, Tianxing), Shi, JC (Shi, Jiancheng), Ma, Y (Ma, Ya), Letu, H (Letu, Husi), Li, XC (Li, Xingcai), All-sky longwave downward radiation from satellite measurements: General parameterizations based on LST, column water vapor and cloud top temperature, ISPRS Journal of photogrammetry and remote sensing,161: 52-60

[20]Xingcai Li, Juan Wang, Guoqing Su, Electrostatic force of dust deposition originating from contact between particles and photovoltaic glass, Chinese Physics B, 2021, 30(10):104101

[21] Xingcai Li, Juan Wang, Equivalence between positive and negative refractive index materials in electrostatic cloaks, Scientific reports, 2021, 11:20467

[22] Hu Weiwei, Li Xingcai, et al., Experimental research on the convective heat transfer coefficient of photovoltaic panel. Renewable Energy, 2022. 185: p. 820-826.

[23]李煜雯,李诗源,徐露窈,蒋俊梅,王娟,李兴财*,光伏板间距对近表面流场和沙尘沉积量的影响,应用力学学报,2021,38(4):1745-1752

[24] Xingcai Li, Xuefeng Zhang, Fei Zhang, Qianguo Liao,Experimental Research on Sand Sediment Protection on Railway Tracks, 2022, Applied Science, 12, 12734

[25]王娟,刘天胜,李兴财,程宁,风对光伏组件发电性能的影响,兰州大学学报(自然科学版),2022,58(5):661-667

[26]Weiwei Hu, Xingcai Li, Juan Wang, Zihang Tian, et al., Experimental research on the convective heat transfer coefficient of photovoltaic panel, 2022, 185:820-826

[27] Jinghong Zhang, Xingcai Li, Li Qiao, CFD–DEM Simulation of Dust Deposition on Solar Panels for Desert Railways, 2023, 13,4

[28] Xingcai Li, Juan Wang, Yinge Liu, Xin Ma, Effect of photovoltaic panel electric field on the wind speed required for dust removal from the panels, Chinese Physics B, 2023, 32(8): 84103

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