李小龙,博士,能源与动力工程系教师。
一、个人简介
1.教育背景
2018/09-2023/06:西安交通大学,动力工程及工程热物理,获工学博士学位
2015/09-2018/01:电子博彩导航,热能工程,获工学硕士学位
2011/09-2015/06:电子博彩导航,热能与动力工程,获工学学士学位
2.工作经历
2024.02-至今:电子博彩导航,博彩导航-电子博彩导航 ,博士后
3.研究方向
(1)超临界流体流动传热;
(2)强化传热理论与技术;
(3)超临界二氧化碳发电/储能系统;
(4)太阳能热发电中的工程热物理问题。
4.联系方式
二、主要科研成果
1.近年来主持或参与的科研项目(不包括企业委托)
[1] 国家资助博士后研究人员计划B档资助,GZB20240188,2024-01至2025-12,主持
[2] 河北省高等学校科学研究项目,QN2025019,三周期极小曲面超临界CO2吸热器光热转换机理及调控机制研究,2025-01至2027-12,主持
[3] 科技部,国家重点研发计划项目,2017YFB0601801,超高参数高效二氧化碳燃煤发电基础理论与关键技术研究,2017-01至2021-7,参与
2.学术论文
[1] Hu JQ, Li XL*, Fan YH, Min CH*, Wang K. Reducing hot spot temperature through vibrating blade-driven winglets motion: Numerical exploration and experimental validation. Appl Therm Eng, 2025, 262: 125315.
[2] Li XL, Li YF, Zhang ZD, Fan YH, Wang JY, Wang K*, Min CH. Optimization of a wavy-channel compact solar receiver with supercritical carbon dioxide. Appl Therm Eng, 2024, 241:122373.
[3] Li XL, Tang GH*, Fan YH, Yang DL. Performance evaluation of heater and recuperator in Brayton cycles for power and energy storage. Appl Therm Eng, 2024, 224:122739.
[4] Li XL, Yu XY, Liu PT, Fan YH, Yang DL, Tang GH*. S-CO2 flow in vertical tubes of large-diameter: Experimental evaluation and numerical exploration for heat transfer deterioration and prevention. Int J Heat Mass Transf, 2023; 216:124563.
[5] Li XL, Tang GH*, Fan YH, Yang DL. A performance recovery coefficient for thermal-hydraulic evaluation of recuperator in supercritical carbon dioxide Brayton cycle. Energy Convers Manag, 2022, 256:115393.
[6] Li XL, Li GX, Tang GH*, Fan YH, Yang DL. A generalized thermal deviation factor to evaluate the comprehensive stress of tubes under non-uniform heating. Energy. 2023; 263:125710.
[7] Li XL, Tang GH*, Yang DL, Fan YH, Xu JL. Thermal-hydraulic-structural evaluation of S–CO2 cooling wall tubes: A thermal stress evaluating criterion and optimization. Int J Therm Sci, 2021, 170:107161.
[8] Li XL, Wang SQ, Yang DL, Tang GH*, Wang YC, Thermal-hydraulic and fouling performances of enhanced double H-type finned tubes for residual heat recovery. Appl Therm Eng, 2021, 189: 116724.
[9] Li XL, Tang GH*, Fan YH, Yang DL, Wang SQ, Numerical analysis of slotted airfoil fins for Printed Circuit Heat Exchanger in S-CO2 Brayton cycle. ASME J Nucl Eng Radiat Sci, 2019, 5(4): 041303.
[10] Min CH*, Li XL, Yuan YW, Chen ZX, Tian LT. An inverse study to optimize the rib pitch in a two–dimensional channel flow problem for heat transfer enhancement. Int J Heat Mass Transf, 2017, 112:1044-1051.
[11] Li XL, Tang GH*, Fan YH, Yang DL. Thermal-Hydraulic Evaluation of Different Configurations of Printed Circuit Heat Exchanger in S-CO2 Brayton Cycle. 16th Conference on Sustainable Development of Energy, Water, and Environment Systems, Oct 10-15, 2021, Dubrovnik, Croatia. (Keynote)
3.专著
[1] 唐桂华, 范元鸿, 李小龙, 杨丹蕾. 超临界二氧化碳发电与储能一体化[M]. 北京: 机械工业出版社, 2024. ISBN:978-7-111-75241-7.
4.专利
[1] 唐桂华*,李小龙,王思琦,范元鸿,杨丹蕾.一种开槽式流线肋型结构的换热板.发明专利(专利号:ZL201910186489.9)
[2] Tang GH*, Li XL, Wang SQ, Fan YH, Yang DL. Heat exchange plate with slotted airfoil fins. 美国专利(专利号:US 11,134,560 B2)