热能工程研究所

热能工程研究所
正高级职称

姜玉雁

姜玉雁

教授

博导 硕导

学院及专业

机械车辆学院 / 能源与动力工程

办公地址

中关村校区1304

100081

办公电话

-

jiangyuyan@bit.edu.cn

个人简介研究方向

本科毕业于西安交通大学低温专业,清华大学能动硕士,东京大学机械系工学博士。2002-2012先后日本东京大学生产技术研究所丰田中央研究所Siemens PLM Software公司工作2012-2021中科院工程热物理研究所研究员中国科学院大学博士生导师2021加入北京理工大学机械车辆学院

研究方向

1新工质先进动力循环关键技术 国内率先开展超临界CO2布雷顿循环发电技术实验研究建成兆瓦发电成套示范机组完成离心压缩机涡轮毛细管换热器核心装备研制目前从事大型跨临界CO2热泵技术研发

2尺度相变传热基础研究应用 基础研究方面,主要研究微尺度沸腾传热微液膜跨尺度热质传递机理提出了相变传热智能调控热压转换强化原理方法工程应用方面,致力于热管基础电子器件热管理航天器高温热防护技术开发

3热流体数值计算 主要研究两相流相变传热数值算法大型流体CAE软件开发

代表性论文及研究项目

发表研究论文90余篇,其中SCI收录50余篇,授权中日美发明专利26项,软件著作权5项。近年代表论文:

  1. 新工质动力循环

(1) 曹可, 袁达忠, 胡和敏, 姜玉雁, 高倍聚光光伏光热一体化系统的热电性能研究, 太阳能, 42 (12), 65-70, (2021).

(2) 朱玉铭 , 姜玉雁, 梁世强, 郭朝红, 郭永献, 高峰, 蔡浩飞, 超临界二氧化碳布雷顿发电循环压缩机实验研究进展, 工程热物理学报, 49(10), 11-20, 1002-3364, (2020).

(3) H Hu, C Guo, H Cai, Y Jiang, S Liang, Y Guo, Dynamic characteristics of the recuperator thermal performance in a S–CO2 Brayton cycle, Energy 214, 119017, (2021).

(4) H Cai, Y Jiang, S Liang, C GuoY Zhu, An optimization of microtube heat exchangers for supercritical CO2 cooling based on numerical and theoretical analysis, Int. Comm. Heat Mass Transfer, 127, 105532, (2021).

(5) H Cai, Y Jiang, T Wang, S Liang, Y Zhu, Experimental investigation on convective heat transfer and pressure drop of supercritical CO2 and water in microtube heat exchangers, Int. J. Heat Mass Transfer, 163, 120443 (2020).

(6) H Hu, Y Jiang, C Guo, S Liang, Thermodynamic and exergy analysis of a S-CO2 Brayton cycle with various of cooling modes, Energy Conversion and Management, 220, 113110 (2020).

(7) Y Zhu, Y Jiang, S Liang, C Guo, Y Guo, H Cai, One-Dimensional Computation Method of Supercritical CO2 Labyrinth Seal, Applied Sciences 10 (17), 5771 (2020).

(8) H Hu, S Liang, Y Jiang, C Guo, Y Guo, Y Zhu, H Cai, Thermodynamic and exergy analysis of 2 MW S-CO2 Brayton cycle under full/partial load operating conditions, Energy Conversion and Management, 211, 112786, (2020).

(9) H Cai, S Liang, C Guo, T Wang, Y Zhu, Y Jiang, Numerical investigation on heat transfer of supercritical carbon dioxide in the microtube heat exchanger at low Reynolds numbers, Int. J. Heat Mass Transfer, 151, 119448, (2020).

(10) H Hu, D Yuan, T Wang, Y Jiang, Dynamic performance of high concentration photovoltaic/thermal system with air temperature and humidity regulation system (HCPVTH), Applied Thermal Engineering, 146, 577-587, (2019).

(11) H Hu, Z Li, Y Jiang, X Du, Thermodynamic characteristics of thermal power plant with hybrid (dry/wet) cooling system, Energy, 147, 729-741, (2018).

  1. 相变传热热管

(12) 陶洁, 郭朝红, 姜玉, 王涛, 工质对微通道沸腾液膜瞬态变化的影响, 工程热物理学报, 41(2),461-468,(2020).

(13) 郝炜, 王涛, 姜玉, 郭聪, 郭朝红, 唐大伟 , 可变形表面池沸腾换热特性研究, 工程热物理学报, 38(5), 1039-1043, (2017).

(14) SC Tan, C Guo, YY Jiang, T Wang, CZ Li, Investigation on permeability of ultra-thin screen wick with free surface using gravity flow and numerical simulation methods, Int. Comm. Heat Mass Transfer, 131, 105879, (2022).

(15) Y Liu, Z Li, Y Jiang, C Guo, D Tang, Analysis of the two-phase flow, heat transfer, and instability characteristics in a loop thermosyphon, Numerical Heat Transfer, Part A: Applications 79 (9), 656-680, (2021).

(16) C Guo, J Tao, Y Jiang, Y Sun, T Wang, Measurement and theoretical analysis of transient liquid film during micro-channel flow boiling, Int. J. Multiphase Flow, 103365, (2020).

(17) L Zhang, T Wang, S Kim, Y Jiang, The effects of wall superheat and surface wettability on nucleation site interactions during boiling, Int. J. Heat Mass Transfer, 146, 118820, (2020).

(18) L Zhang, T Wang, S Kim, S Tan, Y Jiang, Boiling enhancement on surfaces with smart wettability transition, Applied Physics Letters 115 (10), 103701, (2019).

(19) SH Kim, T Wang, L Zhang, Y Jiang, Z Li, Micro-particle image velocimetry visualization study of thermal Buoyant-Marangoni flow in microtubes, Int. J. Heat Mass Transfer, 137, 765-774, (2019).

(20) HC Su, T Li, YY Jiang, C Guo, T Wang, Experimental study on visualization of U-shaped array thermosiphon, Applied Thermal Engineering, 152, 917-924, (2019).

(21) Y Liu, Z Li, Y Li, Y Jiang, D Tang, Heat transfer and instability characteristics of a loop thermosyphon with wide range of filling ratios, Applied Thermal Engineering, 151, 262-271 (2019).

(22) J Zhao, DZ Yuan, DW Tang, YY Jiang, Heat transfer characteristics of a concentric annular high temperature heat pipe under anti-gravity conditions, Applied Thermal Engineering, 148, 817-824, (2019).

(23) SH Kim, Y Jiang, H Kim, Droplet impact and LFP on wettability and nanostructured surface, Experimental Thermal and Fluid Science, 99, 85-93, (2018).

(24) Y Liu, Z Li, Y Li, S Kim, Y Jiang, Experimental investigation of geyser boiling in a two-phase closed loop thermosyphon with high filling ratios, Int. J. Heat Mass Transfer, 127, 857-869, (2018).

(25) L Zhang, T Wang, Y Jiang, SH Kim, C Guo, A study of boiling on surfaces with temperature-dependent wettability by lattice Boltzmann method, Int. J. Heat Mass Transfer, 122, 775-784, (2018).

(26) Y Sun, C Guo, Y Jiang, T Wang, L Zhang, Transient film thickness and microscale heat transfer during flow boiling in microchannels, Int. J. Heat Mass Transfer, 116, 458-470, (2018).

(27) W. Hao, T. Wang, Y.Y. Jiang, C. Guo, C.H. Guo, Pool boiling heat transfer on deformable structures made of shape-memory-alloys, Int. J. Heat Mass Transfer, 112236-247, (2017).

(28) Y. Sun, C. Guo, Y. Jiang, T. Wang, L. Zhang, Online measurements of surface tensions and viscosities based on the hydrodynamics of Taylor flow in a microchannel, Review of Scientific Instruments, 87 (11), 114901, (2016).

(29) T. Li, Y. Jiang, Z. Li, Q. Liu, D.W. Tang, Loop thermosiphon as a feasible cooling method for the stators of gas turbine, Applied Thermal Engineering 109, 449-453, (2016).

主要研究项目:

(1) 微尺度流腾的不稳定性形成机理与非稳态液膜相变动力学,国家自然科学基金No.51376179负责人

(2) 燃气轮机高温透平叶片研制与验证中科院重点部署项目,课题负责人

(3) 燃煤发电系统能源高效清洁利用的基础研究,国家973基础研究计划项目No.2015CB201503子课题负责人

(4) 聚光光伏与余热利用温湿度调节系统研究,国家重点研发计划国际合作重大项目No.2016YFE0118100,负责人

(5) 超临界二氧化碳透平发电关键技术研究,中科院先导A类专项课题,负责

(6) 低温烟气余热回收利用技术装备研究开发山东省泰山产业领军人才项目,负责人

(7) XX热防护技术,国防探索项目、中航航天科技院所合作项目

(8) 热流体仿真软件开发项目兵器工业、中海油公司

成果及荣誉

国家海外高层次人才青年项目2012

山东省泰山产业领军人才2018

产学研合作成果热压转换相变传热技术中国产学研合作促进会2019

发明创业成果超临界二氧化碳发电技术产业化中国发明协会,2020

山东省机械工业科学技术奖,低温烟气余热回收利用技术装备,2021

中国科学院大学优秀研究课程,高等传热学2021

指导研究生4人次获得中国工程热物理学会传热传质分会王补宣-过增青年优秀论文

社会职务

中国工程热物理学会热管专业委员会委员

中国热管理产业技术创新战略联盟副理事长

国家自然科学基金重点研发计划、科技部青年人才项目评审专家