副教授
动力工程
qianxu@ustb.edu.cn
个人信息:
工作经历:
2020.06--至今
北京科技大学-能源与环境工程学院特聘副教授、副教授、硕导
2018.06-2020.12
北京科技大学-能源与环境工程学院教师博士后
北京科技大学-能源与环境工程学院博士研究生辅导员(兼任)
教育经历:
2013.09-2018.06
北京科技大学-能源与环境工程学院动力工程及工程热物理专业获博士学位
2017.11-2018.05
英国伯明翰大学-化学工程系深冷储能研究中心国家公派联合培养博士
2010.03-2013.06
北京科技大学-东凌经济管理学院信息管理与信息系统专业获管理学双学位
2009.09-2013.06
北京科技大学-土木与资源工程学院建筑环境与设备工程专业获学士学位
研究方向:
1. 跨尺度多相流能质传递及结构调控;新能源汽车、数据机房、动力电池综合热管理及智能制造;工业、民用能源存储装备及冷链输运;多级界面介尺度动态演变预测;
2. 人工环境、区域分布式智慧能源系统;工业系统流固热多物理场耦合机制;血液细胞尺度输运特性及靶向诊疗热控管理;油气储运能源管网结构调控、安全经济预测;
3. 钢铁-冶金-建材行业节能及余热梯级利用技术;工业炉窑智慧燃烧机理及城镇固废协同处置资源化利用技术;燃烧污染物过程及源头协同调控策略、碳氮硫协同减排机制;
4. 热过程测量及边界条件获取、数值仿真优化与流程工业控制等工程热物理与机械工程、建筑能源环境、临床医学交叉“产学研用”领域等
在顺德创新学院的基础科研条件:
团队依托多场仿生模拟技术研发中心建立,团队有教师3人,专职实验员1人,设备固定资产约200万元,主要仪器设备有:固液两相流粒子微对流特征测试系统集成装置、热管全方位检测实验台、纳微颗粒制备实验台等。团队主要研究方向包括人体血流动力学,多物理场仿生模拟,电池、电动汽车、数据机房热管理等。
依托顺德创新学院科研项目:
相变微胶囊热输运过程边界层流动与质能传递机制研究,广东省基础与应用基础研究基金省市联合基金-青年基金项目,2020.1.1-2021.12.31,项目负责人;
新型功能流体于纺织印染强化冷却系统研究与示范设计,横向,2020.12.1-2022.6.30,项目负责人;
人工室内环境气流组织模拟优化,横向,2023.5.30-2023.8.31,项目负责人;
人体主动脉血流动力分析,横向,横向,2023.5.25-2023.11.31,项目负责人;
机房及数据中心热控系统研究与示范设计,横向,2022.4.1-2023.12.30,项目负责人;
新型多相功能流体于高密度热流系统冷却技术的开发与应用,佛山市促进高校科技成果服务产业发展若干扶持政策项目,2021.1.1-2021.12.31,项目负责人;
新型微胶囊潜热型功能流体于强化传热系统的关键技术研究,北京科技大学顺德创新学院科技创新专项,2021.1.1-2022.12.31,项目负责人。
代表性成果:
奖励荣誉:
1. 北京市科学技术协会青年人才托举工程
2. 中国健康长寿创新大赛立项资助(中国医学科学院,40w)
(https://healthylongevitychallenge.org/winners/risk-prediction-and-scientific-treatment-strategy-for-atherectomy-in-colorectal-cancer-with-thermofluidic-multi-field-bionic-simulation-intervention/ )
3. 北京科技大学优秀博士后
4. 北京科技大学优秀共青团干部
5. 北京青年优秀科技论文奖
6. 全国能动类百篇优秀毕业论文、节能减排、节能节水、制冷空调、可再生能源大赛等科技创新竞赛国奖优秀指导教师
7. 北京市三好学生、北京市优秀毕业生、博士研究生国家奖学金
8. 北京科技大学“校长奖章”、北京科技大学研究生“十佳学术之星”
代表性论文:
SCI收录(第一作者身份&通讯作者)
[1] Xu Qian, Wang K, Zou Z, et. al. A new type of two-supply, one-return, triple pipe-structured heat loss model based on a low temperature district heating system [J]. Energy, 2021, 218: 119569. [ESI 高被引论文、TOP期刊、1区、IF: 8.857]
[2] Xu Qian, Wang K, Feng J, et. al. A comparative investigation on the effect of different nanofluids on the thermal performance of two-phase closed thermosyphon [J]. International Journal of Heat and Mass Transfer, 2020, 149: 119-189. [ESI 高被引论文、TOP期刊、1区、IF: 5.431]
[3] Xu Qian, Zou Z, Chen Y, et al. Performance of a novel-type of heat flue in a coke oven based on high-temperature and low-oxygen diffusion combustion technology [J]. Fuel, 2020, 267: 117160. [ESI 高被引论文、TOP期刊、1区、IF: 8.035]
[4] Liu D.H, Xie K, et. al, Xu Qian*. Numerical evaluation of the coupled-uncoupled effectiveness of a fluid-solid-thermal multi-field model for a long-distance energy transmission pipeline [J]. Renewable Energy, 2022, 193: 920-940. [TOP期刊、1区、IF: 8.634]
[5] Xu Qian, Shen M, Xie K, et al. Heat and mass transfer mechanism and control strategy of clean low carbon combustion technology in the novel-type coke oven flue with MILD combustion [J]. Fuel, 2022, 320: 124001. [TOP期刊、1区、 8.035]
[6] Wang K, Xie K, Xu Qian*, et. al. Numerical evaluation of the coupled-uncoupled effectiveness of a fluid-solid-thermal multi-field model for a long-distance energy transmission pipeline [J]. Energy, 2022, 251: 123964. [TOP期刊、1区、IF: 8.857]
[7] Xu Qian, Feng J, Liu L, et al. Analysis of mechanical-fluid-thermal performance of heat pipeline system with structural deformation effects [J]. International Journal of Heat and Mass Transfer, 2019,128:12-23. [TOP期刊、1区、IF: 5.431]
[8] Lin L, Libo Feng, Qian Xu*, Yanping Chen. Anomalous diffusion in comb model subject to a novel distributed order time fractional Cattaneo-Christov flux [J]. Applied Mathematics Letters, 2020, 102:106-116. [TOP期刊、1区、IF: 4.294]
[9] Xu Qian, Feng J, Zhang S. Effects of different loads on structure stress of ‘‘L”-type large-diameter pipeline under burying and trench conditions based on fluid–structure–heat coupling [J]. International Journal of Heat and Mass Transfer, 2017, 115:387-397. [TOP期刊、1区、IF: 5.431]
[10] Xu Qian, Feng J, Zhang S. Combined effects of different temperature and pressure loads on the “L”-type large-diameter buried pipeline [J]. International Journal of Heat and Mass Transfer, 2017, 111:953-961 [TOP期刊、1区、IF: 5.431]
[11] Xiong Y. X, Yao C. H, Xu Qian*, Ding Y. L, et al. Waste Semicoke Ash Utilized to Fabricate Shape-stable Phase Change Composites for Building Heating and Cooling [J]. Construction and Building Materials. [TOP期刊、1区、IF: 7.693]
[12] Yao X.Q, Qiang Y.J, Xu Qian*, et. al. Renewable low-cost brassica rapa subsp. Extract for protection of Q235 steel in H2SO4 medium: Experimental and modeling studies [J]. Journal of Industrial and Engineering Chemistry, 2022, 114:427-437. [TOP期刊、2区、IF: 6.76]
[13] Xiong Y.X, Song C.Y, Xu Qian*, et. al. Sludge-incinerated Ash Based Shape-Stable Phase Change Composites for Heavy Metal Fixation and Building Thermal Energy Storage[J]. Process Safety and Environmental Protection, 2022. [TOP期刊、2区、IF: 7.926]
[14] Xu Qian, Yang G, et al. Dynamic response model and equivalent solution method of large-diameter buried energy transportation pipeline under moving load [J]. Journal of Natural Gas Science and Engineering, 2022, 106: 104724. [TOP期刊、2区、IF: 5.285]
[15] Xu Qian, Zhu L.D, et al. Heat transfer performance by forced convection of microencapsulated phase change material-latent functional thermal fluid flowing in a mini-channels heat sink [J]. Applied Thermal Engineering, 2022, 216: 119158. [TOP期刊、2区、IF: 6.465]
[16] Xu Qian, Feng J, et al. Influence of the operating parameters and nozzle characteristics on flat double-P radiant tube performance [J]. Applied Thermal Engineering, 2019, 155: 175-184. [TOP期刊、2区、IF: 6.465]
[17] Xu Qian, Feng J, Zhou J, et al. Performance analysis of a novel W-type radiant tube [J]. Applied Thermal Engineering, 2019, 152: 482-489. [TOP期刊、2区、IF: 6.465]
[18] Xu Qian, Feng J, Zhou J, et al. Study of a new type of radiant tube based on the traditional M-type structure [J]. Applied Thermal Engineering, 2019, 150: 849-857. [TOP期刊、2区、IF: 6.465]
[19] Xu Qian, Feng J, Zhang S. Influence of end side displacement load on stress and deformation of ‘‘L”-type large-diameter buried pipe network [J]. Applied Thermal Engineering, 2017, 126: 245-254. [TOP期刊、2区、IF: 6.465]
[20] Xu Qian, Feng J. Analysis of nozzle gas speed on the performance of the zoned and staged gas-fired radiant tube [J]. Applied Thermal Engineering, 2017, 118: 734-741. [TOP期刊、2区、IF: 6.465]
[21] Xu Qian, Feng J. Analysis of nozzle designs on zoned and staged double P-type gas-fired radiant tube [J]. Applied Thermal Engineering, 2016, 114: 44-50. [TOP期刊、2区、IF: 6.465]
[22] Xu Qian, Feng J, Zhang S. Effects of different loads on structure stress of “L”-type large-diameter buried pipe network based on fluid–structure-heat coupling [J]. International Communications in Heat and Mass Transfer, 2017, 86: 222-230. [2区、IF: 6.782]
[23] Xu Qian, Yang Q, Jia S.H, et. al. Experimental study on synergistic enhancement of thermal performance of a closed two-phase thermosyphon by a TiO2 nanofluid doped with Al2O3 [J]. Case Studies in Thermal Engineering, 2022, 36: 102192. [3区、IF: 6.268]
[24] Wang Z, Zhang H, Xu Qian*, et. al. Experimental study on heat transfer properties of gravity heat pipes in single/hybrid nanofluids and inclination angles [J]. Case Studies in Thermal Engineering, 2022, 34: 102064. [3区、IF: 6.268]
[25] Xu Qian, Shen M, Shi K, et. al. Influence of jet angle on diffusion combustion characteristics and NOx emissions in a self-reflux burner [J]. Case Studies in Thermal Engineering, 2021, 25: 100953. [3区、IF: 6.268]
[26] Xu Qian, Shen M, Shi K, et. al. Effect of the Mixing Structure Parameters of a Self-reflux Burner on Combustion Characteristics and NOx Emission [J]. Journal of Thermal Science, 2021, 30: 1224-1236. [3区、IF: 2.013]
[27] Xu Qian, Liu Y, Feng J, et. al. Synthesis and Characterization of Disodium Hydrogen Phosphate Dodecahydrate-Lauric-Palmitic Acid Used for Indoor Energy Storage Floor Units [J]. Journal of Thermal Science, 2020, 29(2): 477-485. [3区、IF: 2.013]
[28] Xu Qian, Nevzat Akkurt, et. al. Effects of Optimized Operating Parameters on Combustion Characteristics and NOx Emissions of a Burner Based on Orthogonal Analysis [J]. Journal of Thermal Science, 2021, 30: 1212-1223. [3区、IF: 2.013]
[29] Xiong Y. X, Wang H. X, Xu Qian*, Ding Y. L, et al. Insights into the Enhancement Mechanisms of Molten Salt Nanofluids [J]. International Journal of Photoenergy, 2022, 4912922. [4区、IF: 2.535]
[30] Xu Qian, Wang K, Feng J, et. al. Performance analysis of a novel Flue Gas Self-Circulated Burner based on the Low-NOx Combustion [J]. Journal of Energy Engineering, 2020, 146(2): 04019041. [4区、IF: 2.04]
EI收录(第一作者身份)
[1] 徐钱, 冯俊小, 周闻华. 分级气体成分对燃气辐射管热过程影响的数值模拟及研究[J]. 工程科学学报, 2016, 39(1):96-106. [EI, 北京青年优秀科技论文]
[2] 徐钱, 冯俊小. 基于正交法扁双P型辐射管仿真模拟及结构优化[J]. 工程科学学报, 2017, 39(4) :581-592. [EI, 北京青年优秀科技论文]
[3] Xu Q, Feng J-X. Effects of different loads on structure deformation of “L”-type large-diameter buried pipe network based on flow–heat–solid coupling. Heat Transfer– Asian Research. 2017; 46:1327–1341. [EI]
[4] 徐钱, 冯俊小, 周闻华, 等. 分区分级双P型辐射管喷口结构位置特性研究[J]. 工程科学学报, 2017, 39(5) :756-761. [EI]
[5] 徐钱, 冯俊小, 周敬之. 立式镁还原罐还原过程中结构传热特性分析[J]. 化工进展, 2018, 37(2): 459-467. [EI]
[6] 徐钱, 冯俊小, 周闻华, 等. 分区分级燃气辐射管模型验证及仿真研究[J]. 工程科学学报, 2016, 38(11):1620-1628. [EI]
授权专利:
1. 一种焦炉立火道的燃烧装置及燃烧方法
2. 一种焦炉蓄热室余热利用与SNCR/SCR耦合脱硝方法与装置