魏高升
时间: 2020-07-10 来源:
姓名:魏高升
职称:教授、博士生导师
院系:365英国上市官方网站
研究方向:太阳能发电及储能技术、氢能技术、火电机组节能技术、微纳尺度传热、热物性测量技术等
联系方式:
电话:010-61773873
邮箱:gaoshengw@ncepu.edu.cn
地址:教四楼C217
个人简介及主要荣誉称号:
魏高升,男,1975年12月生,蒙古族,辽宁朝阳人。分别于1999年7月(本科)和2002年4月(硕士)毕业于东北电力学院动力工程系,2006年4月在北京科技大学获工学博士学位,同年到华北电力大学工作至今。2016年4月晋升为教授,2018年入选博士生指导教师。曾于2009年在英国曼彻斯特大学和2018年在瑞典麦拉达伦大学做访问学者。目前任中国能源学会专家委员会新能源专家组委员,北京能源与环境学会专家委员会委员,《发电技术》编委。入选华北电力大学教学名师培养计划。华北电力大学365英国上市官方网站第一届教学委员会委员。主持国家自然科学基金项目5项,中央高校基本科研业务费项目3项,企业委托课题多项。《Int J Heat Mass Tranf》,《Appl Energ》,《J Heat Trans-T ASME》,《Energy》,《Appl Therm Eng》,《J Energy Storage》等40余种国内外期刊的审稿人,国家自然科学基金通讯评议专家。发表期刊论文130余篇,论文他引3000余篇次,ESI收录论文3篇,单篇最高他引450余篇次。授权发明专利10余项。
教学与人才培养情况:
主讲本科生《传热学》、研究生《高等传热学》及留学生《Heat Transfer》、《Advanced Heat Transfer》等课程。参编十二五规划教材一部。已指导毕业研究生40余名,博士生5名,其中4名研究生获华北电力大学校级优秀学位论文,2名研究生获得校级优秀毕业生。在读研究生22名,其中博士研究生8名。
主要科研项目情况:
1. 国家自然科学基金面上项目,基于纳米颗粒等离激元效应的柔性光谱分频机制及太阳能全光谱利用研究(52576203),2026.01-2029.12, 主持
2. 国家自然科学基金面上项目,纳米颗粒暂态界面层热质传递规律及相变储热材料热物性强化机制研究(52176069),2022.01-2025.12, 主持
3. 国家自然科学基金面上项目,微/纳米双孔分布多孔介质耦合换热关联机制及异质界面热质传递(51776066),2018.01-2021.12, 主持
4. 国家自然科学基金面上项目,纳米尺度受限空间内气体分子热质传递规律研究(51376060),
2014.01-2017.12,主持
5. 国家自然科学基金青年科学基金,微纳米多孔绝热材料的耦合传热特性研究(50806021),2009.01-2011.12,主持
6. 中央高校基本科研业务费重大项目,相变储热系统动态特性及性能调控研究,2015.11-2018.10,主持
7. 中央高校基本科研业务费重点项目,高温相变材料热物性及其强化研究,2013.01-2014.12,主持
8. 企业委托课题,新型太阳能/光伏热装置设计与优化,2024.11-2025.12,主持
9. 企业委托课题,固体材料蓄放热调控机制仿真与测试服务,2025.08-2026.12,主持
10.企业委托课题,***液氢泄漏扩散与应急处置方法研究,2025.08-2025.11,主持
11. 企业委托课题,***热物性测试与加热器升温传热速率能效转化测试,2023.09-2024.07.03,主持
12. 企业委托课题,储热材料热物性测试研究,2017.06-2022.06,主持
13. 企业委托课题,朝阳燕山湖发电厂空冷系统数模实验研究,2013.05-2013.07,主持
主要获奖情况:
(1)2024年6月,“基于微纳界面调控的太阳能热输运理论与方法”,获河北省自然科学一等奖,排名第2
(2)2024年6月,华北电力大学优秀硕士学位论文指导教师
(3)2020-2021学年,获得“优秀研究生班主任”荣誉称号
(4)2017年3月,华北电力大学优秀硕士学位论文指导教师(2人次)
(5)2016年3月,入选华北电力大学教学名师培育计划
(6)2015年3月,华北电力大学优秀硕士学位论文指导教师
(7)2013-2014学年,华北电力大学教学优秀奖
(8)2011-2012学年,华北电力大学教学优秀奖
(9)2010-2011学年,获得“优秀班主任”荣誉称号
(10)2006年4月,北京科技大学优秀博士学位论文
代表性论著:
[1] GS Wei*, C Huang, LX Wang, L Cui, XZ Du. Thermal Conductivity Modulation Mechanism for Nanoporous Amorphous Silica: Insights from Propagons, Diffusons and Locons. Int J Heat Mass Transf 240 (2025) 126637.
[2] Y Cheng, GS Wei*, JJ Ma, MY Xu, XZ Du. Hydrogen Absorption and Desorption Performance Study on Metal Hydride Reactor Based on Phase Change Material. Int J Hydrogen Energ 105 (2025) 1092.
[3] HX Du, LY Xia, GS Wei*, G Wang, XZ Du. Study on a Novel Solar Spectral Beam Splitting Photovoltaic/Thermal System based on Secondary Reflection. Energy 319 (2025) 134837.
[4] C Huang, L Cui, GS Wei*, MY Xu, Y Cheng, XZ Du. Effect of Porous Structural Characteristics on the Thermal Conductivity of Mesoporous Silica by Combined Molecular Dynamics and Lattice Dynamics Methods. J Non-Cryst Solids 657 (2025) 123495.
[5] HF Chen,
GS Wei*, L Xu, XZ Du. Performance Study on a Novel Hybrid Thermal Management System for Cylindrical Lithium-ion Battery Pack Based on Liquid Cooling and PCM. Appl Therm Eng 271 (2025) 126392.
[6] R Zhu, GS Wei
*, MY Xu, G Wang. Numerical Heat Transfer Enhancement Study on Phase Change Thermal Energy Storage Exchanger with Perforated Fins. Int J Heat Fluid Fl 115 (2025) 109861.
[7] S Moustafa, GS Wei*, H Hamid, M Abd El-Hamid. Multi-objective Optimization of Grooved Circular Pin-finned Heat Sink with Phase Change Material. Appl Therm Eng 262 (2025) 125219.
[8] JJ Ma, GS Wei*, ZL Xue, J Xiang, L Yuan, TY Chen, L Cui, XZ Du. First-principles Study of Physical Adsorption Hydrogen Storage Capacity and Thermal Conductivities of Sodium Decorated Nitrogenated Holey Graphenes. Int J Hydrogen Energ 99 (2025) 729.
[9] GS Wei*, Y Xiao, M Sherin, L Cui, XZ Du. Numerical Study on Electrical and Thermal Performance of a Novel Concentrated Photovoltaic/Thermal System. Appl Therm Eng 244(2024) 122647.
[10] MY Xu, GS Wei*, C Huang, XZ Du. Experimental Enhancement Study of Thermophysical Properties of Ternary Carbonate Phase Change Material with Multi-dimensional Nanoparticles.
Sol Energ Mat Sol C 278 (2024) 113222.
[11] PR Huang, GS Wei
*, L Cui, G Wang, XZ Du. A Morphology Optimization of Enclosure Shape of Low Melting Point Alloy-based PCM Heat Sink, J Energ Storage, 64 (2023) 107153.
[12] LY Xia, GS Wei
*, G Wang, L Cui, XZ Du. Research on Combined Solar Fiber Lighting and Photovoltaic Power Generation System Based on the Spectral Splitting Technology. Appl Energ 333 (2023) 120616.
[13] PR Huang, GS Wei*, L Cui, C Xu, XZ Du. Experimental and Numerical Optimization of Cascaded PCM Heat Sink by Using Low Melting Point Alloys. Energ Convers Manage 269 (2022) 116149.
[14] Y Xiao, PR Huang, GS Wei*, L Cui, C Xu, XZ Du. State-of-the-art Review on Performance Enhancement of Photovoltaic/thermal System Integrated with Phase Change Materials. J Energ Storage 56 (2022) 106073.
[15] GS Wei*, PR Huang, LF Pan, L Cui, C Xu, XZ Du. Experimental, Numerical and Analytical Modeling of Heat Transfer of Gravity Driven Dense Particle Flow in Vertical Heated Plates. Int J Heat Mass Transf 187 (2022) 122571.
[16] M Abd El-Hamid, GS Wei*, L Cui, C Xu, XZ Du, Three-dimensional Heat Transfer Studies of Glazed and Unglazed Photovoltaic/Thermal Systems Embedded with Phase Change Materials,
Appl Therm Eng 208 (2022) 118222.
[17] M Abd El-Hamid, GS Wei*, M Sherin, L Cui, X Du. Comparative Study of Different Photovoltaic/ Thermal Hybrid Configurations from Energetic and Exergetic Points of View: A Numerical Analysis. ASME J Sol Energy Eng 143 (2021) 061006-1.
[18] C Huang, GS Wei*, L Cui, Z Zhou, XZ Du. Gaseous Thermal Conductivity Studies on Mesoporous Silica Particles Based on a Bimodal-pore Distribution Model. Int J Therm Sci 160 (2021), 106668.
[19] PR Huang, GS Wei*, L Cui, C Xu, XZ Du. Numerical Investigation of a Dual-PCM Heat Sink Using Low Melting Point Alloy and Paraffin. Appl Therm Eng 189 (2021) 116702.
[20] G Wang, GS Wei*, C Xu, X Ju, YP Yang, XZ Du. Numerical Simulation of Effective Thermal Conductivity and Pore-scale Melting Process of PCMs in Foam Metals. Appl Therm Eng 147 (2019) 464–472.
[21] GS Wei*, G Wang, C Xu, X Ju,
LJ Xing, XZ Du, YP Yang.
Selection Principles and Thermophysical Properties of High Temperature Phase Change Materials for Thermal Energy Storage: A Review. Renew Sust Energ Rev 81 (2018) 1771–1786.
[22] GS Wei*, YD Zhang, C Xu, XZ Du,YP Yang. A Thermal Conductivity Study of Double-pore Distributed Powdered Silica Aerogels. Int J Heat Mass Transf 108 (2017) 1297-1304.
[23] GS Wei*, PR Huang, C Xu, L Chen, X Ju, XZ Du. Experimental Study on the Radiative Properties of Open-cell Porous Ceramics. Sol Energy 149 (2017) 13–19.
[24] GS Wei*, LX Wang, C Xu, XZ Du, YP Yang.
Thermal Conductivity Investigations of Granular and Powdered Silica Aerogels at Different Temperatures and Pressures.
Energy and Buildings 118 (2016) 226-231.
[25] GS Wei*, PR Huang, C Xu, DY Liu, X Ju, XZ Du, LJ Xing, YP Yang. Thermophysical Property Measurements and Themal Energy Storage Capacity Analysis of Aluminum Alloys. Solar Energy 137 (2016) 66–72.
[26] GS Wei*, LX Wang, L Chen, XZ Du, C Xu, XX Zhang.
Int J Thermophys 36 (2015) 2953-2966.
[27] GS Wei*, YS Liu, XX Zhang, XZ Du. Radiative Heat Transfer Study on Silica Aerogel and its Composite Insulation Materials. J Non-Cryst Solids 365(2013) 231-236.
[28] GS Wei*, YS Liu, XZ Du, XX Zhang. Gaseous Conductivity Study on Silica Aerogel and it’s Composite Insulation Materials. J Heat Trans-T ASME 134(2012) 041301-6.
[29] GS Wei*, YS Liu, XX Zhang, F Yu, XZ Du. Thermal Conductivities Study on Silica Aerogel and its Composite Insulation Materials. Int J Heat Mass Transf 54 (2011) 2355–2366.
[30] GS Wei*, XZ Du, XX Zhang, F Yu. Theoretical Study on Transient Hot-strip Method by Numerical Analysis. J Heat Trans-T ASME 132(2010) 1-7.
[31] GS Wei*, XX Zhang, F Yu. Thermal Conductivity of Xonotlite Insulation Material. Int J Thermophysics 28 (2007) 1718-1729.
[32] GS Wei*, XX Zhang, F Yu, K Chen. Thermal Diffusivity Measurements on Insulation Materials with the Laser-flash Method. Int J Thermophysic 27 (2006) 235-243.
[33] S Moustafa, GS Wei, M Abd El-Hamid*, F Sun, XZ Du. Comparative Study of Different Multilayered PCM Fined Heat Sinks Using Low Melting Point Alloys and Parafffn: A Numerical Analysis. Int J Heat Fluid Fl 112 (2025) 109752.
[34] F Sun, JX Ji, G Zeng*, JL Li, GS Wei. Employment of Molten Salt Thermal Energy Storage Coupled to Coal-fired Power Unit for Power Grid Peak Shaving: A Thermodynamic Study. J Energ Storage 131 (2025) 117503.
[35] S Moustafa, GS Wei, H Hamid, M Abd El-Hamid*. Thermal Management of Cascaded Finned Heat Sink Incorporating Phase Change Material Using Optimization with Multiple Objectives Approach. Appl Therm Eng 279 (2025) 127735.
[36] QH Chen, JZ Zhou*, XF Li, KY Cheng, JN Wang, XL Huai, GS Wei. Experimental Study of Condensation on Mesh-covered Surfaces, Int J Heat Mass Transf 248 (2025) 127197.
[37] G Wang*, P Chou, YX Li, LY Xia, Y Liu, GS Wei. Solar Spectral Beam Splitting Simulation of Aluminum-Based Nanofluid Compatible with Photovoltaic Cells. Energies 18 (2025) 2460.
[38] TL Yan, G Wang*, D Zhang, CX Qi, SS Zhang, PQ Li, GS Wei. Study on the Solidification and Heat Release Characteristics of Flexible Heat Storage Filled with PCM Composite. Energies, 18 (2025) 3760.
[39] M Abd El-Hamid*, GS Wei. Effect of Varying the Thermophysical Properties of Phase Change Material on the Performance of Photovoltaic/thermal-PCM Hybrid Module Numerically. J Energ Storage 86 (2024) 111326.
[40] QH Chen, JZ Zhou*, GH Zhou, KY Cheng, XL Huai, GS Wei. A Comprehensive Review of Thermal Performance Improvement of High-Temperature Heat Pipes. J Therm Sci 33 (2024) 625.
[41] M Abd El-Hamid*, GS Wei. Effect of Varying the Thermophysical Properties of Phase Change Material on the Performance of Photovoltaic/thermal-PCM Hybrid Module Numerically.
J Energ Storage 86 (2024) 111326.
[42] C Huang. L Cui*, LX Qiu, YR Zhang, GS Wei, XZ Du. Impact of Nanoparticle Agglomeration on Thermal Conductivity of Molten Salt Based Nanofluids: Insights from Molecular Dynamics and Lattice Boltzmann Methods. Sol Energ Mat Sol C 266 (2024) 112691.
[43] L Cui*, YR Zhang, GR Li, WJ Wang, GS Wei, XZ Du. Influence of Hybrid Nanoparticle Additives on the Thermal Conductivity and Dispersion Stability of Molten Salts. J Energ Storage 92 (2024) 112125.
[44] L Cui*, QS Yu, C Huang, YR Zhang, Y Wang, GS Wei, XZ Du. Nanoadditives Induced Enhancement of Thermal Energy Storage Properties of Molten Salt: Insights from Experiments and Molecular Dynamics Simulations. J Energ Storage 72 (2023) 10861.
[45] G Wang, ZR Liao, C Xu, G Englmair, WQ Kong, JH Fan*, GS Wei, S Furbo. Design Optimization of a Latent Heat Storage Using Sodium Acetate Trihydrate. J Energ Storage 52 (2022) 104798.
[46] L Cui*, XW Guo, QS Yu, GS Wei*, XZ Du. Ultralow and Anisotropic Thermal Conductivity in Graphene Phononic Metamaterials. Int J Heat Mass Transf 196 (2022) 123227.
[47] L Cui*, QS Yu, GS Wei, XZ Du. Mechanisms for Thermal Conduction in Molten Salt-based Nanofluid. Int J Heat Mass Transf 188 (2022) 122648.
[48] G Wang, C Xu, G Englmair, WQ Kong, JH Fan*, S Furbo, GS Wei. Experimental and Numerical Study of a Latent Heat Storage Using Sodium Acetate Trihydrate for Short and Long Term Applications. J Energ Storage 47 (2022) 103588.
[49] EM Gutierrez D, GS Wei, L Cui*. CFD Analysis of an 800 kV HVDC Transformer with the Rapeseed Oil as Cooling Fluid. CSEE J Power Energy 5 (2022) 1508.
[50] L Cui*, GS Wei, Z Li, JJ Ma, XZ Du. Coherent and Incoherent Effects of Nanopores on Thermal Conductance in Silicone. Int J Therm Sci. 167 (2021) 107009.
[51] L Cui*, GS Wei, Z Li, XZ Du. Thermal Transport in Graphene Nanomesh: Unraveling the Role of Brillouin Zone Folding, Phonon Localization and Phonon Confinement. Int J Heat Mass Transf 165 (2021) 120685.
[52] G Wang, C Xu*, WQ Kong, G Englmair, JH Fan, GS Wei, S Furbo. Review on Sodium Acetate Trihydrate in Flexible Thermal Energy Storages Properties, Challenges and Applications. J Energy Storage 40 (2021) 102780.
[53] G Wang, JH Fan*, ZR Liao, C Xu, GS Wei, WQ Kong, and S Furbo. Numerical Study of a High-temperature Thermal Energy Storage System with Metal and Inorganic Salts as Phase Change Materials. J Renew Sustain Energy 13 (2021) 044104.
[54] X Ju, XY Pan, ZY Zhang, C Xu*, GS Wei. Thermal and Electrical Performance of the Dense-Array Concentrating Photovoltaic (DA-CPV) System under Non-uniform Illumination. Appl Energy 250 (2019) 904.
[55] L Cui*, SQ Shi, GS Wei, XZ Du. Shear Deformation-Induced Anisotropic Thermal Conductivity of Grapheme. Phys Chem Chem Phys 20 (2018) 951.
[56] C Liu*, YD Zhang, XZ Du, GS Wei. Computational Study on Thermal Conductivity of Defective Carbon Nanomaterials: Carbon Nanotubes versus Graphene Nanoribbons. J Mat Sci 53 (2018) 4242.
[57] L Cui*, SQ Shi, Z Li, GS Wei, XZ Du. Reduction of Thermal Conductivity in Silicene Nanomesh: Insights from Coherent and Incoherent Phonon Transport. Phys Chem Chem Phys 20 (2018) 27169.
[58] L Cui*, SQ Shi, Z Li, GS Wei, XZ Du. Manipulating Thermal Conductance of Supported Graphene via Surface Hydroxylation of Substrates. Phys Chem C 122 (2018) 27689.
[59] ZR Liao, C Xu, C Xu*, X Ju, F Gao, GS Wei. Cyclic Performance Analysis of a High Temperature Flat Plate Thermal Energy Storage Unit with Phase Change Material. Appl Therm Eng 144 (2018) 1126.
[60] X Ju, C Xu
*, ZR Liao, XZ Du, GS Wei, ZF Wang, YP Yang. A Review of Concentrated Photovoltaic-thermal (CPVT) Hybrid Solar Systems with Waste Heat Recovery (WHR). Sci Bull, 62 (2017) 1388.
[61] X Ju, C Xu*, YQ Hu, X Han, GS Wei, XZ Du.
A Review on the Development of Photovoltaic/concentrated Solar Power (PV-CSP) Hybrid Systems. Sol Energ Mat Sol C 161 (2017) 305.
[62] X Ju, C Xu*, X Han, XZ Du, GS Wei, YP Yang. A Review of the Concentrated Photovoltaic/thermal (CPVT) Hybrid Solar Systems based on the Spectral Beam Splitting Technology. Appl Energy 187 (2017) 534.
[63] L Li*, XZ Du, LJ Yang, YP Yang, GS Wei. Flow and Heat Transfer Characteristic of Fin-and-tube Heat Exchanger with Wavy Rib Inserts.
J Enhanc Heat Transf 23 (2016) 465.
[64] L Cui*, XZ Du, GS Wei, YH Feng. Thermal Conductivity of Graphene Wrinkles: A Molecular Dynamics Simulation. J Phys Chem C, 120 (2016) 23807.
[65] X Ju, C Xu*, GS Wei, XZ Du,YP Yang. A Novel Hybrid Storage System Integrating a Packed-bed Thermocline Tank and a Two-tank Storage System for Concentrating Solar Power (CSP) Plants. Appl Therm Eng 92 (2016) 24.
[66] L Chen*, YY Sun, HF Xu, SJ He, GS Wei, XZ Du, J Lin. Analytic Modeling for the Anisotropic Thermal Conductivity of Polymer Composites Containing Aligned Hexagonal Boron Nitride. Compos Sci Technol 122 (2016) 42.
[67] L Chen*, YY Sun, J Lin, XZ Du, GS Wei, SJ He, S Nazarenko. Modeling and Analysis of Synergistic Effect in Thermal Conductivity Enhancement of Polymer Composites with Hybrid Filler. Int J Heat Mass Transf 81 (2015) 457.
[68] XX Zhang*, GS Wei, F Yu. Thermal Radiative Properties of Xonotlite Insulation Material. J Therm Sci 14 (2005) 281.
[69] 许美杨,魏高升*,崔柳,杜小泽. 纳米颗粒协同强化三元碳酸盐热物性的实验研究. 工程热物理学报,46 (2025) 1634-1639.
[70] 高泓源,黄超,魏高升*,杜小泽. 多元纳米颗粒增强石蜡相变储热材料的热物理性能实验研究. 太阳能学报, 46 (2025) 483-490.
[71] 黄超,魏高升*,崔柳,杜小泽. 介孔二氧化硅导热特性的分子动力学研究. 工程热物理学报,45 (2024) 551-557.
[72] 潘龙飞,魏高升*,黄平瑞,崔柳,杜小泽. 板间颗粒流动换热特性实验与数值分析研究. 工程热物理学报, 45 (2024) 2446-2252.
[73] 秦志鹏,魏高升*,崔柳,杜小泽. S型翼缝与尾缘襟翼联合控制风机叶片气动特性的研究. 发电技术, 41 (2024) 24-31.
[74] 秦志鹏,魏高升*,崔柳,杜小泽. 基于微波加热的风力机叶片除冰性能数值模拟研究. 电力科学与技术学报, 39 (2024) 57-64.
[75] 邱立翔,黄超,魏高升*,崔柳,杜小泽. 颗粒团聚对太阳盐纳米流体导热性能的影响特性研究, 发电技术,45 (2024) 878-887.
[76] 魏高升*,黄超,崔柳,杜小泽. 介孔二氧化硅双重孔隙的导热特性研究. 工程热物理学报,44 (2023) 517-524.
[77] ABD-HAMID Mohamed, 夏龙禹, 魏高升*, 崔柳, 徐超, 杜小泽. 集成相变储热材料的光伏/热复合系统性能分析. 发电技术, 44 (2023) 53-62.
[78] 肖瑶,钮文泽,魏高升*,崔柳,杜小泽. 太阳能光伏/光热技术研究现状与发展趋势综述. 发电技术,43 (2022) 392-404.
[79] 王泽众,黄平瑞,魏高升*,崔柳,徐超,杜小泽. 太阳能热发电固–气两相化学储热技术研究进展. 发电技术,42 (2021) 238-246.
[80] 黄平瑞,周震,魏高升*,杜小泽. 基于多孔陶瓷的体吸收太阳能集热器性能分析. 发电技术, 40 (2019) 83-90.
[81] 刘烨,魏高升*,由文江,杜小泽. 空气压缩系统深度节能技术. 发电技术, 39 (2018) 70-76.
[82] 魏高升*,王遥,杨彦平,徐超,杜小泽. 基于孔尺度的泡沫金属强化相变储热材料传热性能数值模拟. 发电技术, 39 (2018) 158-174.
[83] 赵铮铮,王遥,刘斌,魏高升*. 三元混合氯化盐 NaCl-KCl-MgCl2 对合金的腐蚀特性实验研究. 发电技术, 39 (2018) 561-565.
[84] 魏高升*,王遥,杨彦平,徐超,杜小泽. 基于孔尺度的泡沫金属强化相变储热材料传热性能数值模拟. 发电技术, 39 (2018) 158-174.
[85] 孙飞,刘烨,魏高升*,由文江.
火电厂螺杆式空压机余热利用方案及经济性分析. 发电技术, 39 (2018) 240-243.
[86] 刘烨,魏高升*,由文江,杜小泽. 空气压缩系统深度节能技术. 发电技术, 39 (2018) 70-76.
[87] 崔柳*, 张一迪, 魏高升, 冯妍卉, 杜小泽. 空位缺陷对碳纳米管/石墨烯纳米带导热的影响. 工程热物理学报, 39 (2017) 848-851.
[88] 王刚,魏高升*,黄平瑞,刘育松,谢珊珊,杜小泽.
改进的新有效介质理论模型分析多孔绝热材料的有效导热系数. 中国电机工程学报,36 (2016) 2465-2469.
[89] 张一迪,魏高升*,王立新,杜小泽,杨勇平. 粉末和颗粒状二氧化硅气凝胶绝热材料的热导率测量. 工程热物理学报, 37 (2016) 739-1743.
[90] 魏高升*,邢丽婧,杜小泽,杨勇平. 太阳能热发电系统相变储热材料选择及研发现状. 中国电机工程学报,34 (2014) 325-335.
[91] 魏高升*,邢丽婧,孟洁,杜小泽,杨勇平. 我国火力发电用水情况预测及节水技术发展分析. 中国电机工程学报,34 (2014) 5717-5727.
[92] 魏高升*,陈林,李兵,陈永辉,杜小泽,杨勇平. 板式蒸发式冷凝器热质传递过程模型分析. 电力建设,35 (2014) 18-21.
[93] 王立新,魏高升*,杜小泽,杨勇平. 纳米孔隙空间内气体分子平均自由程变化规律. 化工学报,65(2014) 211-216.
[94] 魏高升*,车德竞,刘海东,杜小泽,杨勇平. 多层高温绝热层绝热性能理论分析. 中国电机工程学报,33 (2013) 75-79.
[95] 魏高升*,刘海东,刘育松,杜小泽,张欣欣,刘登瀛. 应用傅立叶变换红外光谱仪确定多孔绝热材料的热辐射参数. 工程热物理学报,33 (2012) 1967-1970.
[96] 魏高升*,刘育松,张欣欣,刘登瀛. 气凝胶及其复合绝热材料的导热系数测量. 工程热物理学报,
32 (2011) 667-670.
[97] 魏高升*,刘育松,曹涛,杜小泽,杨勇平. 1000MW直接空冷机组汽泵冷凝采用蒸发式冷凝器的探讨. 汽轮机技术,51 (2009) 214-216.
[98] 魏高升*,杜小泽,张欣欣,于帆. 瞬态热带法热物性测试技术中加热功率的选取. 中国电机工程学报,20 (2008) 44-47.
[99] 魏高升*,张欣欣,于帆. 描述微纳米多孔复合绝热材料的单元体传热模型. 北京科技大学学报,30 (2008):781-785.
[100] 魏高升*,刘立祥,杨立军,杜小泽,杨勇平. 火电厂直接空冷凝汽器出口热空气作为锅炉燃烧用风的综合分析. 现代电力, 25 (2008) 57-60.
发明专利:
[1] 魏高升,夏龙禹,崔柳,杜小泽. 一种高效智能调光式光谱分频的光纤照明和光伏发电系统.
专利号:ZL202110807139.7,授权日期:2024.09.17.
[2] 魏高升,王刚,刘烨,黄平瑞,徐超,杜小泽,一种二级加热容积式太阳能空气接收器. 专利号:ZL201710320089.3,授权日期: 2019.05.31.
[3] 魏高升,王刚,徐超,杜小泽,杨勇平. 一种太阳能电池板温度调控装置,专利号:ZL201710012259.1,授权日期:2019.02.05.
[4] 魏高升,黄平瑞,王刚,杜小泽,杨勇平. 一种模块化的板式凝汽器. 专利号:ZL201610833745.5,授权日期:2018.06.22.
[5] 陈林,杜小泽,黄钰琛,杨立军,魏高升,张辉,李莉,杨勇平. 采用自然通风及复合运行模式的干湿联合冷却塔及其应用. 专利号:ZL201510810682.7, 授权日期: 2017.11.28.
[6] 魏高升,黄平瑞,杜小泽,杨勇平. 固体粉末导热系数的瞬态热带法测量装置和方法. 专利号:ZL201510497576.8,授权日期:2017.12.29.
[7] 魏高升,黄平瑞,杜小泽,杨勇平. 一种高位收水冷却塔防溅收水装置. 专利号:ZL201610266642.5, 授权日期: 2017.11.28.
[8] 魏高升,邢丽婧,苏然然,杜小泽,杨勇平. 一种利用四氧化三铁磁流体的太阳能蓄热型暖手宝. 专利号:ZL201410076809.2,授权日期:2016.01.13.
[9] 魏高升,苏然然,邢丽婧,杜小泽,杨勇平. 一种板式蒸发空冷凝汽器. 专利号:ZL201410250593.7,授权日期:2015.10.21.
[10] 凌坤雄,魏高升,龙宇,牛晨巍. 一种散热系统. 专利号:ZL201410034891.2,授权日期: 2017.09.19.
实验室:
材料热物性测量技术实验室(教四C105)