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姓名:卢浩 |
职称/职务:教授,学术副院长,西北能源碳中和教育部工程研究中心副主任 |
硕士/博士导师:硕士生导师/博士生导师 |
联系方式:luhao@xju.edu.cn |
个人简介:
卢浩博士,教授、博士生导师,入选中组部国家海外高层次人才计划,新疆杰出青年科学基金获得者。新疆大学智能科学与技术学院(未来技术学院)学术副院长,西北能源碳中和教育部工程研究中心副主任,新疆大学双一流建设“能源碳中和”创新团队负责人,广东省通信防雷及元器件工程技术研究中心技术委员会主任,国家科技专家库评审专家,国家自然科学基金评审专家,国家社科基金评审专家,新疆大学电气工程学院学术委员会委员。卢浩教授于2009年和2014年分别获得武汉大学和清华大学能源与动力工程专业学士和博士学位,2014年至2018年在香港理工大学可再生能源研究中心和英国诺丁汉大学Rolls-Royce研究中心担任博士后研究员(Research Fellow),2019年至2020年任华南理工大学长聘副教授,并入选“兴华学者”人才计划,2021年全职进入新疆大学工作,2023年6月在中央党校(国家行政学院)高层次人才国情研修班学习结业,并作为学员代表发言。荣获国家电网有限公司科学技术进步奖、中国电机工程学会电力科学技术进步奖、中国发明协会成果奖二等奖等多个奖项。
围绕国家碳达峰碳中和战略目标,长期从事新能源发电与储能技术、燃煤发电与CCUS技术、能源多相流与传热传质研究、多能互补综合能源系统、能源碳中和关键技术与能源转型路径研究。作为项目负责人主持国家海外高层次人才项目、国家重点研发计划课题(2项)、国家自然科学基金、国家社科基金重大项目课题、英国Rolls-Royce研究基金、新疆杰出青年科学基金、新疆重大科技专项子课题、新疆重点研发任务专项子课题、中央引导地方科技发展专项课题、新疆上合组织国际科技合作项目、广东省自然科学基金项目、中央高校基本科研费面上项目及企业委托横向项目等50余项课题。在上述科研项目的支持下,自主研发出具有特殊表面微结构的光伏组件自清洁涂层和高精度光伏发电功率预测软件系统,在广东能源图木舒克光伏电站等进行了技术示范应用,极大提高了沙尘条件下的光伏发电效率和功率预测精度,取得了显著的经济效果。
在国内外期刊及会议上发表学术论文180余篇,其中本领域国际知名期刊International Journal of Heat and Mass Transfer, Physicsof Fluids,International Journal of Refrigeration,Applied Energy,Energy, Renewable Energy,Solar Energy,Chemical Engineering Science,Fuel,Applied Thermal Engineering,Building and Environment,Energy and Buildings等发表SCI论文90余篇(第一/通讯作者80余篇,国际JCR一区论文70余篇),累计SCI影响因子总和达到500,论文引用次数2000余次,发表EI收录论文30余篇,申请/授权国家发明专利20余项,参与撰写学术专著2部。
作为主研人员参与完成《新疆维吾尔自治区碳达峰碳中和科技创新行动方案》的编制工作并获得新疆自治区领导批示。作为主研人员参与完成国家科技部和新疆科技厅联合委托《科技促进新疆“两高”行业高质量发展的对策建议》并通过院士专家组论证。作为主要人员组织完成《新疆能源碳中和教授大讲堂》系列讲座,获得学术界和企业界同行的正面反响。担任国际SCI二区期刊《Journal of Hydrodynamics》和中文核心期刊《水动力学研究与进展》编委,国际期刊《Frontiers in Built Environment》客座编辑,中文期刊《当代化工研究》编委,中文期刊《能源环境保护》青年编委,新疆大学学报《碳中和目标下能源转型关键技术》专题学术负责人。担任国际多相流大会(ICMF)和国际应用能源大会(ICAE)的分会主席(Session Chair),国际智能电网与可再生能源大会Workshop主席,中国煤炭学会能源环境保护大会执行主席,以及二十多个国际知名SCI期刊的长期审稿专家。
研究方向:
新能源发电与储能技术、燃煤发电与CCUS技术、能源多相流与传热传质研究、多能互补综合能源系统、能源碳中和关键技术与能源转型路径研究。
主讲课程:
[1]本科生课程《工程流体力学》,64学时
[2]本科生课程《制冷与低温原理》,32学时
[3]本科生课程《动力工程》,32学时
[4]研究生课程《储能技术与材料》,32学时
[5]研究生课程《传热强化与节能新技术》,32学时
近五年学术成果:
一、学术论文
[1] Liu Huachen,Lu, Hao*, Hu Heng. CO2capture and mineral storage: State of the art and future challenges,Renewable and Sustainable Energy Reviews, 2024, 189: 113908. (SCI,JCR 1区,中科院TOP)
[2]Lu, Hao*, Wang He, Chang Xiqiang, Zhou Erbiao. Characteristics and mechanism of droplet bouncing on cross-ridge superhydrophobic surfaces: Simulations and theory,Physics of Fluids, 2024, 36, 022114. (SCI,JCR 1区,中科院TOP)
[3]Lu, Hao*, Tang Xiaole. A flexible optimization study on air-cooled battery thermal management system by considering of system volume and cooling performance,Journal of Energy Storage, 2023, 72: 108527. (SCI,JCR 1区,中科院TOP)
[4] Wang He,Lu, Hao*, Zhao Wenjun. A review of droplet bouncing behaviors on superhydrophobic surfaces: Theory, methods, and applications,Physics of Fluids35, 021301. (SCI,JCR 1区,中科院TOP)
[5] Zhu Zhu,Lu, Hao*, Zhao Wenjun, et al. Materials, performances and applications of electric heating films,Renewable and Sustainable Energy Reviews, 2023, 184: 113540. (SCI,JCR 1区,中科院TOP)
[6] Chen Maozhi,Lu, Hao*, Chang Xiqiang, et al. An optimization on an integrated energy system of combined heat and power, carbon capture system and power to gas by considering flexible load,Energy, 2023, 273: 127203. (SCI,JCR 1区,中科院TOP)
[7] Huang Shangjiu,Lu, Hao*, Chen Maozhi, et al. Integrated energy system scheduling considering the correlation of uncertainties, Energy, 2023, 283: 129011. (SCI,JCR 1区,中科院TOP)
[8] An Mingyu,Lu, Hao*, Zhao Wenjun, et al. An Experimental Study on Novel Gas Discharge Tubes With Graphene as Electron Emission Material,IEEE Transactions on Electron Devices, 2023, 70(4): 1942-1949. (SCI,JCR 1区,中科院TOP)
[9] Han Zunshi,Lu, Hao*. Numerical simulation of turbulent flow and particle deposition in heat transfer channels with concave dimples,Applied Thermal Engineering, 2023, 230: 120672. (SCI, JCR 1区,中科院TOP)
[10] Zhang Zhu, Lu H. A numerical study on fluid flow and heat transfer characteristics of oily wastewater falling film outside an elliptical tube,International Communications in Heat and Mass Transfer, 2023, 148: 107004. (SCI, JCR 1区,中科院TOP)
[11] He Beihua,Lu, Hao*, Zheng Chuanxiao, Wang Yanlin, Characteristics and cleaning methods of dust deposition on solar photovoltaic modules-A review,Energy, 2023, 263, 126083. (SCI,JCR 1区,中科院TOP)
[12] Peng Hantao,Lu, Hao*, Chang Xiqiang, Zheng Chuanxiao, Wang Yanlin, 3D CFD modelling of dust deposition characteristics and influences on building-mounted photovoltaic system,Case Studies in Thermal Engineering, 2022, 35, 102138. (SCI,JCR 1区,中科院TOP)
[13] Zheng Chuanxiao,Lu, Hao*, Xu Yongzhong, Wang Yanlin, Study on the performance of open-circuit failure gas discharge tube under the context of DC short-circuit,Electric Power Systems Research, 2022, 213, 108777. (SCI,JCR 2区)
[14]Lu, Hao*, Zheng Chuanxiao. Comparison of Dust Deposition Reduction Performance by Super-Hydrophobic and Super-Hydrophilic Coatings for Solar PV Cells,Coatings, 2022,12, 502. (SCI, JCR 2区)
[15]Lu, Hao*. Effects of Flow Regime and Conjugate Heat Transfer on Particle Deposition in Heat Exchange Duct, 2021,Case Studies in Thermal Engineering, 2021, 28, 101532. (SCI,JCR 1区)
[16]Lu, Hao*, Quan Yunyun. A CFD study of particle deposition in three-dimensional heat exchange channel based on an improved deposition model.International Journal of Heat and Mass Transfer, 2021,178,121633. (SCI,JCR 1区,中科院TOP)
[17]Lu, Hao*, Lu Lin, Gao Xiaoxia. Mass transfer enhancement of falling film liquid desiccant dehumidification by micro-baffle plates.International Journal of Heat and Mass Transfer, 2021,161,120289. (SCI,JCR 1区,中科院TOP)
[18]Lu, Hao, Lu Lin*. CFD Simulation of Liquid Desiccant Dehumidifier Performance with Smooth and Rough Plates.International Journal of Refrigeration, 2021,124,1-12. (SCI,JCR 1区)
[19]Lu, Hao*, Liang Shaowei. Reduction of Dust Deposition on Solar Photovoltaic Cells by Self-Cleaning Coating: Experimental Study of Influencing Factors.Energy Technology, 2021, 9 (2), 2000795. (SCI,JCR 2区)
[20] Cai Rongrong,Lu, Hao, Zhang, Lizhi*. Mechanisms of performance degradation and efficiency improvement of electret filters during neutral particle loading.Powder Technology, 2021, 382, 133-143. (SCI,JCR 1区,中科院TOP)
[21] Hu Lina,Lu, Hao, Ma Xiaojing, Chen Xiaodong. Heterogeneous nucleation on surfaces of the three-dimensional cylindrical substrate.Journal of Crystal Growth, 2021, 575, 126340. (SCI,JCR 3区)
[22]Lu, Hao*, Ma Tao, Lu Lin. Deposition Characteristics of Particles in Inclined Heat Exchange Channel with Surface Ribs.International Journal of Heat and Mass Transfer, 2020,161,120289. (SCI,JCR 1区,中科院TOP)
[23]Lu, Hao, Cai Rongrong, Zhang, Lizhi, Lu Lin*, Zhang Longfei. Experimental investigation on deposition reduction of different types of dust on solar PV cells by self-cleaning coatings.SolarEnergy, 2020, 206, 365-373. (SCI,JCR 2区,中科院TOP)
[24] Zhang Shusheng,Lu, Hao*, Zhang Lizhi*, Riffat Saffa, Ure Zafer, Zhang Huaguan. A lattice Boltzmann simulation of oblique impact of a single rain droplet on super-hydrophobic surface with randomly distributed rough structures.International Journal of Low-Carbon Technologies, 2020, 15, 443-449. (SCI,JCR 2区)
[25]Lu, Hao, Zhang, Lizhi*, Cai Rongrong. Numerical investigation on thermophoretic deposition of particles in turbulent duct flow with conjugate heat transfer: Analysis of influencing factors.Building Simulation, 2020, 13(2), 387-399. (SCI,JCR 1区)
[26]Lu, Hao*. Large Eddy Simulation of Turbulent Channel Flows over Rough Walls with Stochastic Roughness Height Distributions.Journal of Hydrodynamics, 2020, 32, 570-581. (SCI,JCR 2区)
[27] Pan Anjian,Lu, Hao*, Zhang, Lizhi. Experimental Investigation of Dust Deposition Reduction on Solar Cell Covering Glass by Different Self-cleaning Coatings.Energy, 2019, 181, 645-653. (SCI,JCR 1区,中科院TOP)
[28] Zhang, Lizhi,Pan Anjian, Cai Rongrong,Lu, Hao*. Indoor experiments of dust deposition reduction on solar cell covering glass by transparent Super-hydrophobic coating with different tilt angles.Solar Energy, 2019, 188, 1146-1155. (SCI,JCR 2区,中科院TOP)
[29]Lu, Hao; Zhang Lizhi*. Influences of dust deposition on ground-mounted solar photovoltaic arrays: A CFD simulation study.Renewable Energy, 2019, 135, 21-31. (SCI,JCR 1区,中科院TOP)
[30]Lu, Hao, Zhang, Lizhi*. Effects of Blockage Ratio and Reynolds number on Particle Deposition in Duct air Flow over a Forward-Facing Step.Building Simulation, 2019, 12(6), 1119-1129. (SCI,JCR 1区)
[31]Lu, Hao;Zhang, Lizhi*. Particle Deposition Characteristics and Efficiency in Duct Air Flow over a Backward-Facing Step: Analysis of Influencing Factors.Sustainability, 2019, 11, 751. (SCI,JCR 2区)
[32]Lu, Hao,Wang Yuanhao*.Particle Deposition in Ventilation Ducts: A Review.Building Simulation,2019, 12, 723-734. (SCI,JCR 1区)
[33] Cai Rongrong;Lu, Hao; Zhang Lizhi*. Evaluation the effect of fiber alignment on particle collection performance of mechanical/electret filters based on Voronoi tessellations.Chemical Engineering Science, 2019, 197, 109-119. (SCI,JCR 1区,中科院TOP)
[34] Su Qianwen,Lu, Hao, Zhang Jinyao, Zhang Lizhi*. Fabrication and analysis of a highly hydrophobic and permeable block GOPVP/PVDF membrane for membrane humidification-dehumidification desalination,Journal of Membrane Science, 2019, 582, 367-380 (SCI,JCR 1区,中科院TOP)
[35]Lu, Hao; Zhang, Lizhi*. Numerical study of dry deposition of monodisperse and polydisperse dust on building-mounted solar photovoltaic panels with different roof inclinations.Solar Energy, 2018, 176, 535-544. (SCI,JCR 2区,中科院TOP)
[36]Lu, Hao, Lu Lin*, Jiang Yu. Numerical Study of Particle Deposition Rates in Variable-section Ducts with Different Expanding or Contracting Ratios.Applied Thermal Engineering2017; 110: 150-161. (SCI,JCR 1区,中科院TOP)
[37]Lu, Hao, Lu Lin*. Investigation of particle deposition efficiency enhancement in turbulent duct air flow by surface ribs with hybrid-size ribs.Indoor and Built Environment2017; 26: 608-620.(SCI,JCR 2区)
[38]Lu, Hao, Lu Lin*, Wang Yuanhao*. Numerical investigation of dust pollution on a solar photovoltaic (PV) system mounted on an isolated building.Applied Energy2016; 180: 27-36. (SCI,JCR 1区,中科院TOP)
[39]Lu, Hao, Lu Lin*, Luo Yimo, Qi Ronghui. Investigation on the dynamic characteristics of the counter-current flow for liquid desiccant dehumidification.Energy2016; 101: 229-238. (SCI,JCR 1区,中科院TOP)
[40]Lu, Hao, Lu Lin*, Jiang Yu. Numerical Simulation of Particle Deposition in Duct Air Flows with Uniform, Expanding or Contracting Cross-section.Energy and Buildings2016; 128: 867-875. (SCI,JCR 1区,中科院TOP)
[41]Lu, Hao, Lu Lin*. CFD investigation on particle deposition in aligned and staggered ribbed duct air flows.Applied Thermal Engineering2016;93:697-706. (SCI,JCR 1区,中科院TOP)
[42] Jiang Yu, Lu Lin*,Lu, Hao. A novel model to estimate the cleaning frequency for dirty solar photovoltaic (PV) modules in desert environment.Solar Energy2016; 140: 236-240. (SCI,JCR 2区,中科院TOP)
[43]Lu, Hao, Lu Lin*. Numerical investigation on particle deposition enhancement in duct air flow by ribbed wall.Building and Environment2015;85:61-72. (SCI,JCR 1区,中科院TOP)
[44]Lu, Hao, Lu Lin*. Effects of rib spacing and height on particle deposition in ribbed duct air flows.Building and Environment2015;92:317-327. (SCI,JCR 1区,中科院TOP)
[45]Lu, Hao, Lu Lin*. A numerical study of particle deposition in ribbed duct flow with different rib shapes.Building and Environment2015;94:43-53. (SCI,JCR 1区,中科院TOP)
[46]Lu, Hao, Wang Bing*, Zhang Huiqiang, Wang Xilin. Transports of air particulate matters in the atmospheric boundary layer-numerical studies using Eulerian and Lagrangian methods.Science China-Physics Mechanics & Astronomy, 2013, 56:645-650. (SCI,JCR 1区,中科院TOP)
[47]Lu, Hao, Wang Bing*, Zhang Huiqiang, Wang Xilin. Analysis of solid particle clusters in coherent structures of turbulent channel flow.Science China-Technological Sciences, 2013, 56:2525-2530. (SCI,JCR 2区)
[48] Zhang Huiqiang,Lu, Hao, Wang Bing*, Wang Xilin. Experimental Investigation of Flow Drag and Turbulence Intensity of a Channel Flow with Rough Walls.Chinese Physics Letters, 2011, 28:084703. (SCI,JCR 3区)
[49] Pan Anjian,Lu Hao*, Zhang Lizhi, Experimental Investigation of Dust Particle Deposition Reduction on Solar Cell Covering Glass by Super-hydrophobic Coatings,Environmental Science and Engineering, 2020, 827-834. (EI收录)
[50]Lu Hao, Zhang Lizhi*, Lu Lin*, Pan Anjian, Numerical investigation on monodispersed particle deposition in turbulent duct flow with thermophoresis.Energy Procedia,2019, 158, 5711-5716. (EI收录)
[51]Lu Hao, Lu Lin*, Zhang Lizhi*, Pan Anjian, Numerical study on polydispersed dust pollution process on solar photovoltaic panels mounted on a building roof.Energy Procedia,2019,158, 879-884. (EI收录)
[52]卢浩,张会强,王兵,王希麟.横向粗糙元壁面槽道湍流的大涡模拟研究.工程热物理学报,2012,33(7):1163-1167. (EI收录)
[53]卢浩,张会强,王兵,王希麟.展向和流向间距不同的粗糙元壁湍流ADV实验研究.清华大学学报,2012, 52(1):113-117. (EI收录)
[54]卢浩,王兵,张会强,王希麟.壁面不同排列粗糙元对湍流拟序结构的影响.工程热物理学报,2011, 32(9):1519-1523. (EI收录)
[55]卢浩,王兵,张会强,王希麟.不同粒径粗糙元对壁面湍流拟序结构的影响.工程热物理学报,2010, 31(7):1143-1147. (EI收录)
二、专利软著
[1]一种电网碳排追踪系统及方法,PCT国际发明专利。
[2]一种发电厂用适应不同煤种使用的配风装置,国家发明专利。
[3]一种基于LSGAN-GRU网络的短期光伏功率预测方法,国家发明专利。
[4]碱激发固废固结二氧化碳的建筑制品的制备方法及用途,国家发明专利。
[5]一种基于LSTM组合预测框架的光伏功率预测方法,国家发明专利。
[6]粉煤灰基发泡材料固结二氧化碳的建筑制品的制备方法,国家发明专利。
[7]一种沙漠取水及滴灌系统及其使用方法,国家发明专利。
[8]多功能光伏面板清洁装置、清洁方法及光伏发电设备,国家发明专利。
[9]一种透明自清洁抗灰尘沉积涂层材料及其制备方法,国家发明专利。
[10]一种抗结露结霜自清洁涂层及其制备方法,国家发明专利。
[11]一种具备自清洁功能的膜式海水淡化装置和方法,国家发明专利。
[12]一种高透湿高疏水氧化石墨复合膜及其制备方法,国家发明专利。
[13]一种孔径可控超疏水聚合膜及其制备方法,国家发明专利。
三、专著
[1]太阳能建筑一体化技术与应用,北京:中国建筑工业出版社, 2015(撰写第二章)
近五年主持或在研项目:
一、国家级科研课题
1.2021年4月,国家海外高层次人才计划项目,太阳能光伏发电与储能一体化研究,主持。
2.2021年1月,国家重点研发计划课题,柴油机废气排放净化与余热利用技术研究及示范,主持。
3.2023年11月,国家重点研发计划课题,全烧高碱煤锅炉多目标深度优化变负荷运行控制技术,主持。
4.2023年1月,国家自然科学基金,基于超疏水表面微结构优化的光伏组件自清洁机理与性能调控研究,主持。
5.2022年2月,国家社科基金重大项目课题,碳中和目标驱动下多能互补体系的协同机理与实现路径研究,主持。
二、省部级重点重大科研课题
1.2021年8月,新疆杰出青年科学基金,太阳能光伏组件自清洁涂层防尘机理及性能调控研究,主持。
2.2023年1月,自治区重点研发专项,电容器用阳极箔生产工艺磷酸废水资源化回收及处理关键技术研发,主持。
3.2023年11月,上合组织重点项目,微纳胶囊碳捕集材料耦合镁基金属制取石墨烯关键技术研发及应用,主持。
三、重大横向课题
1.2021年9月,新疆翰阳电热科技有限股份公司委托项目,先进石墨烯电热膜关键技术测试与性能优化研究,主持。
2.2023年10月,国网新疆电力有限公司电力科学研究院项目,基于绿电制氢的产供销一体化天然气掺氢、 煤电掺气技术研究,主持。
3.2023年8月,特变电工股份有限公司项目,电解铝与多晶硅负荷柔性调控关键技术研发,主持。