主要科研成果
先后作为项目负责人承担了包括国家重点研发计划项目及课题、973计划课题,863项目,国防预研重点项目,国基金重大国际合作项目、市科委重大项目课题和市自然科学基金重点项目等在内的十多项国家和北京市重点项目的研究,项目总经费超过5000万元。先后荣获北京航空航天大学优秀博士学位论文和全国优秀博士论文提名奖;北京市科技进步三等奖1项(排名第二)和全国发明博览会银奖。申请人先后发表论文300余篇,其中SCI收录204篇;获得授权发明专利50项,美国专利1项,实现专利转让二千多万元。先后在国际学术会议上做主旨报告6次,分会口头报告10次。做为主要起草人参与了《空调通风系统清洗规范》GB19210-2003、《一般用喷油单螺杆空气压缩机》GB/T 26967-2011、《工业余热梯级综合利用导则》、《蓄热型电加热装置》等国家标准的起草。参与国家能源局《太阳能热发电材料发展指南》、《太阳能热发电示范工程技术条件及实施方案》、《能源科技创新规划(2016-2025年)-先进储能技术与装置》等文件的编制,负责中国科协《储能技术学科方向预测及路线图---储热》的编写。协助马重芳教授组织编写了《工程热物理学科发展报告2007-2008》,《工程热物理学科发展报告2009-2010》中《传热传质学科发展》专题报告。
A.近十年国际期刊论文
[1]Yaxuan Xiong, Yang Yang, Aitonglu Zhang, Jing Ren, Qian Xu, Yuting Wu, Yanqi Zhao, Ding, Yulong Ding. Investigation on low-carbon shape-stable phase change composite by steel slag and carbide slag for solar thermal energy storage.Journal of Energy Storage, 2023, 76:109736 (SCI:001127936100001)
[2]Junnan Niu, Cancan Zhang, Ying Li, Yuting Wu, Hexin Sun.Design and investigation of cold storage material for large-scale application in supercritical compressed air energy storage system.Journal of Energy Storage, 2023, 75:109680(SCI:001120090400001)
[3]Chuan Li, Guoyun Leng, Li Han, Qi Li, Haitao Lu, Rongyu Xu, Zhang Bai, Yanping Du, Yuting Wu. Preparation and characterization of quinary nitrate salt based composite phase change material with low melting point for low and medium temperature thermal energy storage.Journal of Energy Storage, 2023, 74: 109277(SCI:001098749400001)
[4]Chuan Li, Li Han, Guoyun Leng, Haitao Lu, Rongyu Xu, Yanping Du, Qi Li, Yuting Wu. Nitrate salt-halloysite nanotube (HNT) composite phase change materials for thermal energy storage: The feasibility of material fabrication by using HNT as skeleton substance and its thermal properties.Solar Energy Materials & Solar Cells 263 (2023) 112565 (SCI:001100042500001)
[5]Yaxuan Xiong, Xi Tian, Xiang Li, Jing Ren, Qian Xu, Yuting Wu, Yulong Ding. Effects of expanded graphite on NaNO3/semi-coke ash shape-stable phase change composites for thermal energy storage.Journal of Energy Storage, 2023, 72: 108648(SCI:001059404300001)
[6]Hailong Yang, Yonghong Xu, Hongguang Zhang, Jian Zhang, Fubin Yang, Yan Wang, Yuting Wu.Experimental Investigation on the Performance of Compressors for Small-Scale Compressed Air Energy Storage in Parallel Mode. Sustainability, 2023,15(17):13164(SCI:001061218600001)
[7]Ningning Li, Yuting Wu, Biao Lei, Cancan Zhang, Yuanwei Lu, Lu Ren. Dynamic optimization and thermo-economic assessment of a solar parabolic trough combined heat and power system with thermal storage: A case study.Applied Thermal Engineering, 2023, 235:121372(SCI:001066917200001)
[8]Hai-Xiao Wang, Biao Lei, Yu-Ting Wu. Control strategies of pumps in organic Rankine cycle under variable condensing conditions.Applied Thermal Engineering, 2023, 234:121226(SCI:001051033100001)
[9]Yuanwei Lu, Ruiping Zhi, Fanrong Chen, Biao Lei, Yawei Guo, Yuting Wu. Experimental research on the performance of high-pressure single screw compressor for portable natural gas liquefaction system.Applied Thermal Engineering, 2023, 233:121149(SCI:001043838100001)
[10]Yaxuan Xiong, Aitonglu Zhang, Xiaodong Peng, Chenhua Yao, Nan Wang, Yuting Wu, Qian Xu, Chongfang Ma. Investigation of a sole gas expander for gas pressure regulation and energy recovery.Energy281 (2023) 128258. (SCI: :001039315300001)
[11]Ci Ao, Suying Yan, Xiaoyan Zhao, Na Zhang, Yuting Wu. Enhanced heat transfer in a latent heat thermal energy storage unit using a longitudinal fin with different structural parameters. Thermal Science and Engineering Progress,43 (2023) 101975. (SCI: 001035813100001)
[12]Ci Ao, Suying Yan, Xiaoyan Zhao, Na Zhang, Yuting Wu. Effect of novel concentric annular fins on the melting and solidification process of stearic acid in thermal energy storage devices.Applied Thermal Engineering, 2023, 231:120855(SCI:001018899500001)
[13]Ruiping Zhi, Rui Ma, Delou Zhang, and Yuting Wu. Experimental Research on a Lightweight Miniature Wankel Compressor for a Vapor Compression Refrigeration System in Aerospace.Sustainability 2023, 15, 8826.(SCI:001003580400001)
[14]Yanchun Yang, Yuanwei Lu, Yuting Wu. Heat Transfer and Flow Friction Performance of Molten Salt and Supercritical CO2 in Printed Circuit Heat Exchanger. Heat Transfer Engineering, 2023,2213996.(SCI:000995024600001)
[15]Yonghong Xu, Qingsong Zhu, Hongguang Zhang, Jiangyi Lv, Jian Zhang, Fubin Yang, Dong Yan, Yuting Wu. Experimental investigation on compressor performance in compressed air energy storage system under variable working conditions. Journal of Renewable And Sustainable Energy, 2023,15(3):034101(SCI:000984920900002)
[16]Xiaoming Dong, Yuting Wu, Cancan Zhang, Yuanwei Lu, Chongfang Ma. Experimental and numerical study on heat transfer and flow characteristics of molten salt nanofluids in spiral-wound tube heat exchanger. International Journal of Thermal Sciences, 2023,191,108343(SCI::000983427400001)
[17]Heya Na, Cancan Zhang, Yuting Wu, Subudao Ming, Yuanwei Lu. Investigation on thermal performance of eutectic binary nitrate-carbonate molten salt under thermal shock condition. Solar Energy Materials & Solar Cells 255 (2023) 112314 (SCI: 000976798000001)
[18]Ci Ao, Suying Yan, Xiaoyan Zhao, Na Zhang, Yuting Wu. Design optimization of a novel annular fin on a latent heat storage device for building heating.Journal of Energy Storage, 2023,64:107124(SCI:000968976300001)
[19]Xia Chen, Mingxuan Zhang, Yuting Wu, Chongfang Ma. Advances in High-Temperature Molten Salt-Based Carbon Nanofluid Research. Energies 2023, 16(5) :2178 (SCI: 000947608200001)
[20]Lixia Sang, Xiaoyuan Lv, Yuting Wu. NaNO3-KNO3-KCl/K2CO3 with the elevated working temperature for CSP application: Phase diagram calculation and machine learning. Solar Energy, 2023,252: 322-329(SCI:000940671400001)
[21]Yilin Ye, Rui Ma, Yue Ning, Yuting Wu. Simulation of refrigerant-lubricant two-phase flow characteristics and performance test in space compressor.Applied Thermal Engineering, 2023, 224: 120105(SCI:000931429900001)
[22]Songtao Han, Cancan Zhang, Yuting Wu, Yuanwei Lu, Junnan Niu. Study on Flow and Heat Transfer Performance of Molten Salt Based Nanofluids in Shell and Twisted Tube Heat Exchanger with Shutter Baffle. International Journal of Thermophysics, 2023,44(2):30(SCI:000905615200001)
[23]Jia Liang, Baofeng Yao, Yonghong Xu, Hongguang Zhang, Fubin Yang, Anren Yang, Yan Wang, Yuting Wu. Experimental Research on Performance Comparison of Compressed Air Engine under Different Operation Modes. Energies 2023, 16(3) :1312 (SCI: 000930029800001)
[24]Lixia Sang, Xiaoyuan Lv, Yuancong Wang, Ji Huang, Yuting Wu. Investigation of KNO2-KNO3-K2CO3 mixed molten salts with higher working temperature for supercritical CO2 concentrated solar power application.Journal of Energy Storage, 2023, 61:106724(SCI:000963114700001)
[25]Ci Ao, Suying Yan, Xiaoyan Zhao, Na Zhang, Yuting Wu. Stearic acid/boron nitride as a composite phase change material for thermal energy storage. Diamond and Related Materials,2023,33:109671(SCI:000922040800001)
[26]Hai-Xiao Wang, Biao Lei, Yu -Ting Wu. Simulations on organic Rankine cycle with quasi two-stage expander under cross-seasonal ambient conditions.Applied Thermal Engineering, 2023, 222:119939(SCI:000913008000001)
[27]Ci Ao, Suying Yan, Long Zhao, Yuting Wu.Assessment on the effect of longitudinal fins upon melting process in a latent heat thermal energy storage unit.Journal of Energy Storage, 2023,59:106408(SCI:000916581300001)
[28]Lixia Sang, Kaiyin Wang, Yuting Wu, Chongfang Ma. The improved solar weighted absorptance and thermal stability of desert sand coated with transition metal oxides for direct particle receiver. Solar Energy Materials & Solar Cells 251 (2023) 112158 (SCI: 000914971000001)
[29]Wei Wang, Jia-hui Huo, Yue-ting Tao, Biao Lei, Yu-ting Wu, Chong-fang Ma. Semi-empirical modelling and analysis of single screw expanders considering inlet and exhaust pressure losses.Energy 266 (2023) 126356. (SCI: 000908850700001)
[30]Cancan Zhang, Songtao Han, Yuting Wu, Chunyu Zhang, Hang Guo. Experimental and numerical study on heat transfer characteristic of nitrate molten salt-based nanofluids in tube with twisted tape. Journal of Thermal Analysis and Calorimetry, 2023, 148(3): 955-964. (SCI:000894000400001)
[31]Yaxuan Xiong, Chenhua Yao, Ren Jing, Yuting Wu, Xu Qian, Binjian Nie, Chuan Li, Yulong Ding. Waste semicoke ash utilized to fabricate shape-stable phase change composites for building heating and cooling. Construction And Building Materials, 2022,361:129638. (SCI: 000897096500003)
[32]Yonghong Xu, Xin Wang, Hongguang Zhang, Fubin Yang, Jia Liang, Hailong Yang, Kai Niu, Zhuxian Liu, Yan Wang, Yuting Wu. Experimental Investigation of the Output Performance of Compressed-Air-Powered Vehicles with a Pneumatic Motor. Sustainability, 2022,14(22): 15377. (SCI: 000887703200001)
[33]Xiaotong Chen, Yuanwei Lu *, Qinglong Kong, Zhengyang Li, Yuting Wu. Research on dimensionless structure size of coil heat exchanger in heat discharging process of molten salt single tank heat storage system.Applied Thermal Engineering, 2023, 219:119367
[34]Ci Ao, Suying Yan, Wenqi Hu, Long Zhao, Yuting Wu. Heat transfer analysis of a PCM in shell-and-tube thermal energy storage unit with different V-shaped fin structures.Applied Thermal Engineering 216 (2022) 119079(SCI: 000847932100001)
[35]Ci Ao, Suying Yan∗, Sitong Zhao, Wenqi Hu, Long Zhao, Yuting Wu.Stearic acid/expanded graphite composite phase change material with high thermal conductivity for thermal energy storage. Energy Reports 8 (2022) 4834–4843(SCI:000837943100002)
[36]Qi Li, Wenzhen Wei, Yuying Li, Chuan Li, Ruihuan Ge, Yanping Du, Xinjing Zhang, Yuting Wu. Development and investigation of form-stable quaternary nitrate salt based composite phase change material with extremely low melting temperature and large temperature range for low-mid thermal energy storage. Energy Reports 8 (2022) 1528–1537.(SCI: 000783859300008),影响因子:6.87, Q1
[37]Yonghong Xu, Hongguang Zhang*, Fubin Yang, Liang Tong, Dong Yan, Yifan Yang, Yan Wang, Yuting Wu. Performance of compressed air energy storage system under parallel operation mode of pneumatic motor.Renewable Energy 200 (2022) 185–217(SCI:000875677200001)
[38]Xiaoming Dong, Cancan Zhang, Yuting Wu*, Yuanwei Lu and Chongfang Ma. Thermodynamic Analysis and Optimization Design of a Molten Salt-Supercritical CO2 Heat Exchanger. Energies 2022, 15, 7398(SCI: 000868101500001)
[39]Qi Gao, Yuanwei Lu *, Yanchun Yang , Yuting Wu , Cancan Zhang , Zhansheng Fan. Are unexpected chloride ions in molten salt really harmful to stainless steel?Journal of Energy Storage 54 (2022) 105317(SCI: 000835195200006)
[40]Qi Gao , Yuanwei Lu *, Qiang Yu , Yuting Wu , Cancan Zhang , Ruiping Zhi. High-temperature corrosion behavior of austenitic stainless steel in quaternary nitrate molten salt nanofluids for concentrated solar power.Solar Energy Materials & Solar Cells 245 (2022) 111851(SCI:000826692500004).
[41]WANG Wei*, PAN Zhenfei, LEI Biao, WU Yuting, WANG Jingfu, MA Chongfang. Numerical Simulation of Charging Performance of Combined Sensible-Latent Heat Storage System with a Macro-Encapsulation Method. Journal of Thermal Science,https://doi.org/10.1007/s11630-022-1681-y(SCI: 000854688100001)
[42]Xiaofeng Song, Yuting Wu*, Lili Shen, Wei Wang, Biao Lei, Ruiping Zhi, Chongfang Ma. Comparative experimental analysis of the effect of lubricant viscosity on the performance of a single-screw expander with different structures. Journal of Energy Storage 52 (2022) 104958(SCI: 000811233400003)
[43]Lixia Sang *, Kaiyin Wang , Ran Zhang , Yuancong Wang , Yuting Wu. Effective thermal conductivity and thermal cycling stability of solid particles for sCO(2) CSP applications. Solar Energy Materials & Solar Cells 242 (2022) 111764 (SCI: 000830160000004)
[44]Yanchun Yang, Yuanwei Lu, Haijiao Wei, Yuting Wu & Qi Gao. Numerical study of thermal-hydraulic performance of sCO(2)-molten salt printed circuit heat exchanger with discontinuous fins channel. Numerical Heat Transfer, Part A: Applications,https://doi.org/10.1080/10407782.2022.2105113(SCI: 000844076400001)
[45]Biao Lei*, Hai-bin Yu, Guo-qiang Li, Yu-Ting Wu, Wei Wang. Thermodynamic investigations on internal generator cooling for hermetic expanders in Organic Rankine Cycles. Energy 251 (2022) 123992(SCI: 000798563400003)
[46]Yanan Li, Ruiping Zhi, Yuting Wu*, Jingfu Wang, Biao Lei, Lili Shen. Influence of clearance height on performance of water-lubricated single-screw air compressor.Energy 251 (2022) 123899. (SCI: 000798565600008)
[47]Cancan Zhang, Songtao Han, Yuting Wu *, Chunyu Zhang, Hang Guo.Investigation on convection heat transfer performance of quaternary mixed molten salt based nanofluids in smooth tube. International Journal of Thermal Sciences 177 (2022) 107534.(SCI:000779151600003),影响因子:3.744, Q2
[48]Dong Yan, Yonghong Xu, Hongguang Zhang, Fubin Yang, Liang Tong, Yifan Yang, Yan Wang, Yuting Wu. Experimental study of compressed air engine working in parallel operation mode. 2022, 46(13): 18049-18066.(SCI: 000812031000001)
[49]FENG Xu*, ZHANG Zhenying, WU Yuting, TIAN Dingzhu. A Parametric Study on the Effect of Mixing Chamber for Expansion Work Recovery CO2 Ejector. Journal of Thermal Science Vol.31, No.6 (2022) 1914~1927(SCI:000807927100002)
[50]Wenbing Song, Yuanwei Lu*, Zhansheng Fan and Yuting Wu. Preparation and Thermophysical Properties of Sodium Nitrate/Nanoparticle/Expanded Graphite Composite Heat Storage Material. Frontiers in Energy Research, 2022, 10: 878747(SCI: 000814362300001)
[51]Heran Jing, Zhenhua Quan* , Yaohua Zhao, Lincheng Wang, Ruyang Ren, Ruixue Dong and Yuting Wu. Experimental Investigation of Heat Transfer and Flow Characteristics of Split Natural Cooling System for Data Center Based on Micro Heat Pipe Array. Energies 2022, 15, 4250 (SCI: 000817375600001)
[52]Xiong Yaxuan*, Wang Huixiang, Wu Yuting, Zhang Jinhua, Li Haimeng, Xu Qian,Zhang Xingxing, Li Chuan*, Ding Yulong. Carbide slag based shape-stable phase change materials for waste recycling and thermal energy storage. Journal of Energy Storage 50 (2022) 104256.(SCI:000782114800004),影响因子:6.583, Q1
[53]Yaxuan Xiong⁎, Chaoyu Song, Jing Ren, Yuhe Jin, Binjian Nie, Qian Xu⁎, Yuting Wu, Chuan Li⁎, Haimeng Li, Yulong Dingg. Sludge-incinerated ash based shape-stable phase change composites for heavy metal fixation and building thermal energy storage.Process Safety and Environmental Protection 162 (2022) 346–356(SCI: :000798813400005).
[54]WU Yuting, QIAN Li, ZHANG Cancan*, HAN Songtao, SUN Hexin, NIU Junnan, CHENG Yingkun, SANG Shengjie. Comparative Study on Heat Flux and Temperature Distribution Performance of Linear Fresnel Collector Based on Uniformity Index. Journal of Thermal Science. 2022, 31(3):678~688 (SCI: 000796563300005).
[55]Biao Lei, Yu-Ting Wu, Chong-Fang Ma, Hai-Xiao Wang. Thermodynamic analyses and experimental investigations on the net efficiency of a small-scale organic Rankine cycle prototype. International Journal Of Energy Research, 2022,10.1002/er.8005.(SCI:000787198400001),影响因子:5.164, Q1
[56]Xu Ping, Fubin Yang*, Hongguang Zhang, Yan Wang, Biao Lei, Yuting Wu. Performance limits of the single screw expander in organic Rankine cycle with ensemble learning and hyperdimensional evolutionary many-objective optimization algorithm intervention.Energy 245 (2022) 123254.(SCI:000792566400007),影响因子:7.147, Q1
[57]WEI Haijiao, LU Yuanwei1*, YANG Yanchun, ZHANG Cancan, WU Yuting, LI Weidong, ZHAO Dongming. Flexible Operation Mode of Coal-fired Power Unit Coupling with Heat Storage of Extracted Reheat Steam.Journal of Thermal Science, 2022, 31(2): 436~447.(SCI:000769472600013),影响因子:2.438, Q2
[58]Lili Shen, Yuting Wu, Wei Wang, Biao Lei, Wei Duan and Ruiping Zhi. Study on the internal irreversible losses and process exponent of single screw expanders. Journal of Mechanical Science and Technology 2022, 36 (3):1569~1578.(SCI:000763899500004),影响因子:1.734, Q3
[59]Biao Lei *, Zhong-Jie Duan , Yu-Ting Wu. Thermodynamic investigations on an integrated heat pump with thermal storage for wind-solar hybrid heating. Energy Conversion and Management 254 (2022) 115276.(SCI:000773484000004),影响因子:9.709, Q1
[60]Yanan Li, Jingfu Wang, Yuting Wu, Biao Lei, Ruiping Zhi and Lili Shen. Influence of water injection parameters on the performance of a water-lubricated single-screw air compressor.Journal of Mechanical Science and Technology 2022, 36 (1): 445~456.(SCI:000740416000015)影响因子:1.734, Q3
[61]Yonghong Xu, Hongguang Zhang, Fubin Yang, Liang Tong, Dong Yan, Yifan Yang, Yan Wang, Yuting Wu. Experimental Research on the Forward and Reverse Rotation Characteristics of a Pneumatic Motor for a Microscale Compressed Air Energy Storage System. Energy Technology, 2022,10(3),2100724(SCI::000739183100001),影响因子:3.631, Q3.
[62]Jun Fen Li, Hang Guo, Yu Ting Wu, Biao Lei, Fang Ye, Chong Fang Ma, Yu Zhang, Xin Liang Jiao. Experimental investigation of solar organic Rankine cycle with parabolic trough concentrator using nitrate salt as heat transfer and storage fluid. Int J Energy Res. 2022;46:6847–6865.(SCI:000736599400001),影响因子:5.164, Q1
[63]Lina Ma , Cancan Zhang *, Yuting Wu , Yuanwei Lu.Effect of flow rate and SiO2 nanoparticle on dynamic corrosion behavior ofstainless steels in molten salt for thermal energy storage.Corrosion Science 194 (2022) 109952. (SCI:000726790200002),影响因子:7.205, Q1
[64]Lina Ma , Cancan Zhang *, Yuting Wu , Yuanwei Lu.Comparative review of different influence factors on molten salt corrosioncharacteristics for thermal energy storage.Solar Energy Materials & Solar Cells 235 (2022) 111485.(SCI:000721487600002),影响因子:7.267, Q1
[65]Xinxin Zhang*, Zhenlei Li, Jingfu Wang, Yuting Wu and Chongfang Ma. Performance Improvement of KCS (Kalina Cycle System) 34 by Replacing Throttle Valve With Single-Screw Expander.Front. Energy Res. 2021,9:741704. (SCI:000715651700001),影响因子:4.008, Q2
[66]Yonghong Xu, Hongguang Zhang*, Fubin Yang, Liang Tong, Dong Yan, Yifan Yang, Yan Wang, Yuting Wu. Performance analysis of combined cooling power based on small-scale compressed air energy storage system. Journal of Energy Storage 2021, 44 103382.(SCI:000707365600001),影响因子:6.583, Q1
[67]LEI Biao, ZHANG Cancan*, ZHANG Yeqiang, WU Yuting, WANG Wei, MA Chongfang. A Theoretical Criterion for Evaluating the Thermodynamic Effectiveness of Regenerators in Organic Rankine Cycle Systems. Journal of Thermal Science Vol.30, No.6 (2021) 2027~2036.(SCI:000701024200001),影响因子:2.438, Q2
[68]Tao Shi a, Huijin Xu a,*, Cong Qi d, Biao Lei c, Yuting Wu c, Changying Zhao. Multi-physics modeling of thermochemical heat storage with enhance heat transfer. Applied Thermal Engineering 198 (2021) 117508.(SCI:000701780700008),影响因子:5.295, Q1
[69]Biao Lei *, Qing-Zhi Yan , Yu-Ting Wu , Chong-Fang Ma , Li-Li Shen , Xiang Li. A study on the single screw expander with exhaust kinetic energy utilization in organic Rankine cycle conditions. Energy Conversion and Management 2021, 245: 114641.(SCI::000693364800004),影响因子:9.709, Q1
[70]Jiayu Miao, Suoying He*, Yuanwei Lu**, Yuting Wu, Xuehong Wu, Guanhong Zhang, Ming Gao, Zhe Geng, Shuzhen Zhang. Comparison on cooling performance of pre-cooled natural draft dry cooling towers using nozzles spray and wet medium. Case Studies in Thermal Engineering 27 (2021) 101274. (SCI:000691532000079),影响因子:4.724, Q1
[71]Yonghong Xu, Hongguang Zhang*, Fubin Yang, Liang Tong, Dong Yan, Yifan Yang, Yan Wang, Yuting Wu. Experimental investigation of pneumatic motor for transport application. Renewable Energy 179 (2021) 517~527.(SCI:000704356200001),影响因子:8.001, Q1
[72]Yonghong Xu, Hongguang Zhang*, Fubin Yang, Liang Tong, Dong Yan, Yifan Yang, Yan Wang, Yuting Wu. Experimental research on universal characteristics and output performance of pneumatic motor for compressed air vehicle. Journal of Energy Storage 41 (2021) 102943.(SCI:000707772500004),影响因子:6.583, Q1
[73]Ruiping Zhi, Biao Lei, Cancan Zhang*, Weining Ji, Yuting Wu. Experimental study of single screw expander with different oil-gas separators in compressed air powered system. Energy 235 (2021) 121371.(SCI:000703184100007),影响因子:7.147, Q1
[74]Haijiao Wei, Yuanwei Lu*, Yanchun Yang, Cancan Zhang, Cong He, Yuting Wu, Weidong Li, Dongming Zhao. Research on influence of steam extraction parameters and operation load on operational flexibility of coal-fired power plant. Applied Thermal Engineering 195 (2021) 117226.(SCI:000677530500001),影响因子:5.295,Q1
[75]Qiang Yu , Yuanwei Lu *, Xiaopan Zhang , Yanchun Yang , Cancan Zhang , Yuting Wu.Comprehensive thermal properties of molten salt nanocomposite materialsbase on mixed nitrate salts with SiO2/TiO2 nanoparticles for thermalenergy storage.Solar Energy Materials & Solar Cells 230 (2021) 111215.(SCI:000696639800003),影响因子:7.267, Q1
[76]Xia Chen*, Yu-Ting Wu, Chao Wang, Xin Wang, Chong-Fang Ma. Flow and mixed convection heat transfer of Hitec salt in multi-sided heating pipes. Sustainable Energy Technologies and Assessments 47 (2021) 101375 (SCI: 000755358100008)
[77]Wei Wang*, Han Qiao, Biao Lei, Yu-ting Wu, Chong-fang Ma. Experimental study on the influence of inlet and exhaust pressure loss on the performance of single screw expanders. Energy 232 (2021) 120912.(SCI:000707623500007),影响因子:7.147, Q1
[78]Cancan Zhang, Yan Han , Yuting Wu *, Yuanwei Lu. Comparative study on high temperature thermal stability of quaternary nitrate-nitrite mixed salt and Solar salt. Solar Energy Materials and Solar Cells, 230 (2021) 111197.(SCI:000701870500005),影响因子:7.267, Q1
[79]Yan Han , Cancan Zhang *, Yuting Wu , Yuanwei Lu. Investigation on thermal performance of quaternary nitrate-nitrite mixed salt and solar salt under thermal shock condition. Renewable Energy 175 (2021) 1041~1051.(SCI:000658657000006),影响因子:8.001, Q1
[80]Dong Yan, Fubin Yang*, Fufang Yang*, Hongguang Zhang, Zhiyu Guo, Jian Li, Yuting Wu.Identifying the key system parameters of the organic Rankine cycle using the principal component analysis based on an experimental database. Energy Conversion and Management 240 (2021) 114252.(SCI:000657700200001),影响因子:9.709, Q1
[81]Jun Fen Li, Hang Guo, Biao Lei, Yu Ting Wu, Fang Ye, Chong Fang Ma. An overview on subcritical organic rankine cycle configurations with pure organic fluids. Int J Energy Res. 2021;45:12536–12563.(SCI:000636591900001),影响因子:5.164, Q1
[82]Qiang Yu , Yuanwei Lu *, Xiaopan Zhang , Yanchun Yang , Cancan Zhang , Yuting Wu. Comprehensive thermal properties of molten salt nanocomposite materials base on mixed nitrate salts with SiO2/TiO2 nanoparticles for thermal energy storage. Solar Energy Materials & Solar Cells 230 (2021) 111215.(SCI:000641150700011),影响因子:7.267, Q1
[83]Rui Ma∗, Xudong Ma, Yilin Ye, Yuting Wu. Comparison of the mixed flow and heat transfer characteristics in the evaporator of a vapor compression heat pump in normal gravity and microgravity. International Journal of Heat and Mass Transfer 172 (2021) 121170.(SCI:000641142400045),影响因子:5.584, Q1.
[84]Yonghong Xu , Hongguang Zhang *, Fubin Yang , Liang Tong , Yifan Yang , Dong Yan , Chongyao Wang , Jing Ren , Yuting Wu. Experimental study on small power generation energy storage device based on pneumatic motor and compressed air. Energy Conversion and Management 234 (2021) 113949.(SCI:000634572200001),影响因子:9.709, Q1
[85]HOU Xiaochen*, ZHANG Hongguang, ZHAO Tenglong, SHI Xin, XU Yonghong, LI Jian, GE Zhong, ZHANG Jun, WU Yuting. Study on the Control Strategy of Free Piston Expander-Linear Generator Used for Organic Rankine Cycle Waste Heat Recovery. Journal of Thermal Science Vol.30, No.2 (2021) 585~597.(SCI:000616459400004),影响因子:2.438, Q2
[86]Cancan Zhang, Yuanwei Lu*, Suli Shi, Yuting Wu. Comparative research of heat discharging characteristic of single tank molten salt thermal energy storage system. International Journal of Thermal Sciences, 2021,161: 106704. (SCI: 000592641600038, EI: 20204909591149),影响因子:3.476, JCR分区:Q1
[87]Xu Ping, Fubin Yang, Hongguang Zhang, Wujie Zhang, Jian Zhang, Gege Song,Chongyao Wanga, Baofeng Yao, Yuting Wu.Prediction and optimization of power output of single screw expander in organic Rankine cycle (ORC) for diesel engine waste heat recovery.Applied Thermal Engineering 182 (2021) 116048
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[167]Li-Xia Sang, MenCai, Yang-BoZhao, Nan-Ren, Yu-Ting Wu, ClemensBurda.Mixed metal carbonates/hydroxides for concentrating solar power analyzed with DSC and XRD.Solar EnergyMaterials&SolarCells140(2015)167–173.(SCI:000356746800023,EI:20151800799542)影响因子:4.732,引用次数:,2
[168]Yu-Ting Wu, Shan-Wei Liu, Ya-Xuan Xiong, Chong-Fang Ma, Yu-Long Ding.Experimental study on the heat transfer characteristics of a lowmelting point salt in a parabolic trough solar collector system.Applied Thermal Engineering 89 (2015) 748~754)(SCI:000362862100071, EI:20152901032840)影响因子:3.0343,引用次数:5
[169]Jing He, Yu-Ting Wu, Xia Chen, Yuan-Wei Lu, Chong-Fang Ma, Chun-Xu Du, Gang Liu, Rui Ma.Experimental study of a miniature vapor compression refrigeration systemwith two heat sink evaporators connected in series or in parallel.International Journal of Refrigeration,2015,49:28-35(SCI: 000348012500005, EI:201447231436),影响因子:2.241
[170]Ye-Qiang Zhang, Yu-Ting Wu, Guo-Dong Xia, Chong-Fang Ma, Wei-Ning Ji,Shan-Wei Liu, Kai Yang, Fu-Bin Yang.Development and experimental study on organic Rankine cyclesystem with single-screw expander for waste heat recovery fromexhaust of diesel engine.Energy 77 (2014) 499~508(SCI: 000346542500054, EI:201447214225),影响因子:4.844,引用次数:25
[171]Ye-Qiang Zhang,Yu-Ting Wu,Wei He,Guo-Dong Xia,Chong-Fang Ma & Yan-HaiPeng.Experimental Study on the Influence of Rotational Speed on the Performance of a Single-screw Expander with a 175 mm Screw Diameter.International Journal Of Green Energy,2015,12(3S1): 257-264(SCI:000344370000010, EI:201446196498)影响因子:1.215,引用次数:1
[172]Biao Lei, Yu-Ting Wu, Wei Wang, Jing-Fu Wang, Chong-Fang Ma.A study on lubricant oil supply for positive-displacement expanders insmall-scale organic Rankine cycles.Energy 78 (2014) 846~853;(SCI:000347579200082)影响因子:4.844
[173]Yu-Ting Wu, Biao Lei, Chong-Fang Ma, Lei Zhao, Jing-Fu Wang, Hang Guo and Yuan-Wei Lu.Study on the Characteristics of Expander Power Output Used for Offsetting Pumping Work Consumption in Organic Rankine Cycles.Energies 2014, 7:4957-4971.(SCI:000341230200011,EI:201437063859)影响因子:2.072,引用次数:3
[174]Yu-Ting Wu, Cong Chen , Bin Liu, Chong-Fang Ma.Investigation on forced convective heat transfer of molten salts in circular tubes.International Communications in Heat and Mass Transfer, 2012,39(10):1550-1555(SCI:000313542000015,EI: 20124715693914),影响因子:2.782,引用次数:18.
[175]Yu-Ting Wu, Nan Ren, Tao Wang, Chong-Fang Ma.Experimental Studyon OptimizedComposition of Mixed Carbonate Saltfor Sensible Heat Storagein Solar Thermal Power Plant. Solar Energy, 2011,85(9):1957-1966(SCI:000295233600024, EI:20113314237610),影响因子:3.469,引用次数:27
[176]Yu-Ting Wu, Chong-Fang Ma, Xiao-Hui Zhong.Development and experimental investigation of a miniature-scalerefrigeration system.Energy Conversion and Management,2010,51(5): 81-88(SCI:000272334100011,EI:20100412651953),影响因子: 4.380,引用次数:11
[177]Yu-ting Wu, Bin Liu, Chong-Fang Ma, Hang Guo.Convective heat transfer in the laminar–turbulent transition regionwith molten salt in a circular tube.Experimental Thermal and Fluid Science, 2009,33 (7):1128–1132(SCI:000269480600010;EI:20093412258430),影响因子:1.990,引用次数:26
[178]Yu-Ting Wu , Yu Ding, Yi-Bang Ji, Chong-Fang Ma, Man-Chu Ge. Modification and experimental research on vortex tube, International Journal of refrigeration, 2007,30(6): 1042~1049(SCI:WOS000249613500012 EI:20073310762186)影响因子2.241,引用次数:34
[179]Yu-Ting Wu, Jian-Xun Ren, Zeng-Yuan Guo, Xin-Gang Liang. Optimal analysis of a space solar dynamic power system. Solar energy, 2003, 74(3):205~215(SCI: 000184888500003 EI: 2003337593495),影响因子:3.469.,引用次数:6
[180]Yu-Ting Wu,Chun-Xin Yang,Xiu-Gan Yuan. Drop distributions and numerical simulation of dropwise condensation heat transfer. International Journal of Heat and Mass Transfer,2001,44(23):4455-4464(SCI:000171246100008EI:2001456716894),影响因子2.383,引用次数:32
[181]Yu-Ting Wu,Chun-Xin Yang,Xiu-Gan Yuan. A Theoretical Study of the Effect of Surface Thermal Conductivity on Heat Transfer Coefficient in Dropwise Condensation. Numerical Heat Transfer,Part A:Applications,2001,40(2):169-179(SCI:000170760500005),影响因子1.975,引用次数:2
[182]Nan Ren, Yu-Ting Wu, Chong-Fang Ma, Li-XiaSang. Preparation and thermal properties of quaternary mixed nitrate with low melting point. Solar Energy Materials and Solar Cells,2014,127: 6~13(SCI: 000338618000002, EI: 20141917699260),影响因子:5.755,引用次数:13
[183]Kai Yang, Hong-Guang Zhang, Song-Song Song, Jian Zhang, Yu-Ting Wu, Ye-Qiang Zhang,Hong-Jin Wang, Ying Changand Chen Bei.Performance Analysis of the Vehicle Diesel Engine-ORC Combined System Based on a Screw Expander.ENERGIES,2015,7(5):400-3419,(SCI:000337253200030, EI:20142317786516),影响因子:5.755,引用次数:5
B.授权发明专利
1.鹿院卫;魏海姣;张灿灿;吴玉庭;马重芳.一种火电厂深度调峰系统.申请号:201910313766.8;申请日:2019.04.18,授权日:2024.02.06
2.鹿院卫;魏海姣;张灿灿;于强;张银和;吴玉庭;马重芳.一种低谷电储热户型供暖系统. 201910259447.3申请日:2019.04.02,公告日:2023.09.26
3.吴玉庭;马重芳;李小丽;鹿院卫;陈夏;张晓明.一种移动式熔盐蓄、放热装置. 201710824253.4申请日:2017-9-13,授权日:2023.09.01
4.吴玉庭 封旭 雷标 鹿院卫.一种可调节的单螺杆压缩机回热式复叠低温制冷系统. 202310037449.4,申请日:2023.01.10,授权日:2023.08.04
5.陈永昌 侯玲钧 吴玉庭 杜春旭 雷标.一种不停机除霜空气源热泵供暖系统.CN202110561889.0,申请日:2021.05.23,授权公告日:2022.10.18
6.吴玉庭 娜荷芽 张灿灿 鹿院卫.高分解温度混合熔盐传热蓄热介质.CN202111217902.7,申请日:2021.10.19,授权公告日:2022.05.24
7.鹿院卫 何聪 魏海姣 吴玉庭 马重芳. 一种具有高潜热的中高温混合熔盐蓄热体系和制备方法.CN202110514234.8,申请日:2021.0512,授权公告日:2022.03.15
8.雷标 闫庆志 王伟 吴玉庭 马重芳. 一种用于有机朗肯循环的小压差蒸气直驱高增压比工质泵. CN202010033176.2,申请日:2020.01.13,授权公告日:2022.06.28
9.雷标,吴玉庭,王伟.一种无泵自压缩有机朗肯循环发动机. ZL 202010654149.7,申请日:2020.07.07,授权公告日:2021.04.09
10.雷标,吴玉庭,王伟.一种用于有机朗肯循环的膨胀压缩一体机. ZL 202010636215.8,申请日:2020.07.03,授权公告日:2021.06.25
11.雷标;余海彬;吴玉庭;马重芳.一种集成熔盐蓄热和高效空气源热泵的风光互补清洁供暖系统.ZL201911334857.6,申请日:2019.12.20,授权公告日:2021.03.16
12.吴玉庭;李英;马重芳.一种低熔点二元硝酸混合熔盐纳米流体.201710329169.5,申请日:2017.05.111;授权公告日:2019.11.15
13.雷标;吴玉庭;马重芳;郭航.一种基于四通换向阀的有机朗肯循环膨胀机气动润滑油供应系统.201810787208.0,申请日:2018.07.18;授权公告日:2019.04.19
14.鹿院卫;崔锡民;吴玉庭;马重芳.熔盐单罐电加热蓄热供暖系统及使用方法.201710948979.9,申请日:2017.10.12;授权公告日:2019.11.26
15.鹿院卫;王明远;吴凡;吴玉庭;马重芳.一种机舱新风臭氧转换装置.201610447868.5,申请日:2016.06.20;授权公告日:2019.04.12
16.马重芳,吴玉庭,雷标,王伟,王伟.单螺杆压缩机复合滑阀系统. 201610729709.4,申请日:2016.08.25;授权公告日:2018.03.09
17.王伟;马重芳;吴玉庭;王景甫;雷标;智瑞平.单螺杆膨胀机螺槽排气余速利用系统.201610516022.2,申请日:2016.07.01;授权公告日:2018.09.04
18.鹿院卫,李小丽,吴玉庭,马重芳.带级联式相变蓄热结构的单罐蓄、放热装置及其使用方法. 201510989792.4,申请日:2015.12.22,授权公告日:2017.12.08
19.吴玉庭,张璐迪,马重芳,陈夏,任楠.一种低熔点纳米熔盐传热蓄热介质及制备方法. 201510233093.7,申请日:2015.05.08,授权公告日:2017.11.21
20.鹿院卫,李小丽,吴玉庭,马重芳.级联式太阳能集热单罐相变蓄、放热装置及其使用方法. 201510992323.8,申请日:2015.12.24,公开日:2016.03.23,授权公告日:2017.7.11申请人:北京工业大学
21.马重芳,吴玉庭,任楠.一种低熔点混合熔盐传热蓄热介质. 201510003846.5,申请日:2013.1.1授权公告日:2017.6.16
22.马重芳,吴玉庭,任楠.低熔点混合熔盐传热蓄热介质201510001711.5,申请日:2013.1.1授权公告日:2017.5.24
23.鹿院卫,吴玉庭,孙晓丽,杜文彬,李小丽,马重芳,一种单罐蓄能装置及其使用方法. 201410116792.9.申请日:2014.3.26,授权公告日:2017.4.19
24.马重芳,吴玉庭,任楠.低熔点混合熔盐传热蓄热介质.201310000651.6,申请日:2013.1.1,授权公告日:2016.6.1
25.马重芳,吴玉庭,任楠,刘斌.熔盐蓄热式电加热集中供暖系统. 201410093965.x.申请日:2014.3.13,授权公告日:2017.3.08
26.鹿院卫,吴玉庭,杜文彬,孙晓丽,李小丽,马重芳,一种单罐电能蓄能装置及其使用方法. ZL201410114259.9.申请日:2014.3.25,授权公告日:2016.6.22
27.马重芳,吴玉庭,张业强,杜春旭.一种基于单螺杆膨胀机和熔盐的碟式太阳能热电联供系统. ZL 201310279662.2,申请日:2013.07.04,授权公告日:2016.4.20
28.杜春旭,吴玉庭,马重芳,张业强.一种双熔盐太阳能热发电传热蓄热系统. 201320883196.4,申请日:2013.12.30,授权公告日:2016-1-13
29.马重芳,吴玉庭,刘斌,任楠,张业强,熊亚选,陈永昌.冷却燃气轮机叶片的方法.201210065983.8,申请日:2012.3.13,授权公告日:2015-10-28
30.杜春旭,吴玉庭,马重芳,张业强.一种槽式真空集热管直流大电流熔盐解冻预热装置.201320881682.2,申请日:2013.12.30,授权公告日:2015-10-14
31.马重芳,吴玉庭,孟强,熊亚选.一种熔盐重力热管. 201410014388.0,申请日:2014.1.13,授权公告日:2015-7-01
32.马重芳,吴玉庭,任楠.混合熔盐蓄热式电暖器.201310001064.9,申请日:2013.1.1,授权公告日:2015-7-01
33.马重芳,吴玉庭,何为.采用气体引射器的气动汽车动力系统. 201210531569.1,申请日:2012.12.11,授权公告日:2015-4-29
34.马重芳,杨凯,张红光,张健,范伯元,吴玉庭,王伟.单螺杆膨胀机的润滑系统及控制方法. 201210350995.5,申请日:2012.9.19,授权公告日:2015-1-14
35.马重芳,吴玉庭,熊亚选.一种太阳能集热器热性能测定系统. ZL2012I0025353.8授权公告日:2014.12.03(发明)
36.马重芳,张红光,王恩华,范伯元,杨凯,吴玉庭,王伟.带蓄热器的内燃机排气余热回收系统及控制方法. ZL201210106411.X,授权公告日:2014.4.16(发明)
37.鹿院卫,马重芳,吕鹏飞,吴玉庭.一种天然气直接膨胀式液化方法及装置. ZL 201110100802.6,授权公告日:2013.11.06(发明)
38.马重芳,张红光,梁虹,王恩华,陈研,刘彬,吴玉庭,王伟,杨凯,刘星.基于单螺杆膨胀机的发动机排气余热利用系统. ZL 201010579857.5,授权公告日:2013.10.02(发明)
39.马重芳,张红光,梁虹,王恩华,陈研,刘彬,吴玉庭,王伟,杨凯,刘星.两级单螺杆膨胀机有机朗肯循环柴油机尾气余热利用系统. ZL 201010579930.9,授权公告日:2014.1.1(发明)
40.马重芳,吴玉庭,何为.单螺杆膨胀机与熔盐相结合的发动机系统. ZL201010238825.9,授权公告日:2013.4.10(发明)
41.马重芳,吴玉庭,何为.单螺杆膨胀机气动汽车发动机动力系统.ZL201010154090.1,授权公告日:2012.5.23(发明)
42.鹿院卫,马重芳,王丁会,吴玉庭.车内空气净化系统.ZL200910077004.9授权公告日:2011.5.18.(发明)
43.马重芳,鹿院卫,吴彦鹏,吴玉庭,王伟. light-pipe system for lighting、ventilation and photocatytic air purification.美国专利US7875252B2.授权公告日:2011.1.25(发明)
44.马重芳,王晓涛,吴玉庭,王伟,王景甫,鹿院卫.一种直接式土壤源热泵系统.ZL200810057379.4授权公告日:2010.2.3(发明)
45.马重芳,鹿院卫,吴玉庭,王伟.立式光催化空气净化器. ZL 200410083957.3.授权公告日:2008.12.10(发明)
46.鹿院卫,马重芳,吴玉庭,王伟.太阳能强化自然通风与绿色照明系统. ZL200610078633.X授权公告日:2008.11.12.(发明)
47.马重芳,唐志伟,吴玉庭,李军.采用闭式循环集尘方式的中央空调风道清洗方法及其装置. ZL 200510055287.9授权公告日:2008.8.6(发明)
48.马重芳,鹿院卫,吴延鹏,吴玉庭.实现光催化空气净化与自然通风的光导管系统. ZL 200410086705.6.授权公告日:2008.3.5(发明)
49.马重芳,吴玉庭,何 曙,葛满初.一种涡流管喷嘴. ZL 200510075282.2.授权公告日:2007.3.14(发明)
50.马重芳,王伟,吴玉庭,鹿院卫,吴延鹏.应用于文物展示柜照明的光导管装置. ZL200510002281.5授权公告日:2006.10.25(发明)
