发动机研究所

发动机研究所
正高级职称(按拼音排序)

宋孟杰

姓 名

宋孟杰 (SONG Mengjie

职 称

教授

博导 硕导

学院及专业

机械与车辆学院 / 能源与动力工程系

办公地址

北京理工大学中关村校区1号楼413

邮 编

100081

办公电话

邮 件

mengjie.song@bit.edu.cn; mengjie.song@gmail.com

个人简介:宋孟杰博士,北京理工大学机械与车辆学院教授/博导 、特立青年学者、结霜实验室主任 、澳大利亚伍伦贡大学建筑能源研究中心DECRA研究员、EI期刊Recent Patents on Mechanical Engineering唯一主编、SCI期刊Frontiers in Energy Research副编辑,本硕博先后毕业于湖南大学、哈尔滨工业大学及香港理工大学,曾任广东工业大学副教授、香港科技大学访问学者、新加坡南洋理工大学研究员、天津大学客座研究员、日本东京大学JSPS特任研究员等。宋教授始终专注于传热传质流动的耦合机理与应用基础研究,在结霜结冰领域取得了系列科研成果。具体研究领域包括:二维水滴冻结与气动剪切超薄水膜特性的动态测量、热泵系统匹配及运行调控策略优化、环路热管与飞机防除冰技术、相变材料循环稳定性及其蓄热技术、受限空间热湿传递机理与人体睡眠热舒适、两相流微通道内不稳定性及相变冷却技术等。近年课题组将朝军工融合、医工融合的相关研究领域拓展。

基本信息

一、教育背景

2011.11-2015.03,香港理工大学,屋宇设备工程系,哲学博士

2008.08-2010.06,哈尔滨工业大学,供热、供燃气、通风及空调工程,工学硕士(免试保送)

2004.09-2008.06,湖南大学,建筑环境与设备工程,工学学士


二、工作履历

2020.01-现在,澳大利亚伍伦贡大学,建筑能源研究中心,DECRA研究员

2019.10-现在,北京理工大学,能源与动力工程系,教授/博导/特立青年学者/结霜实验室主任

2017.10-2019.10,日本东京大学,人间环境学专攻,JSPS特任研究员

2017.07-2017.09,新加坡南洋理工大学,能源研究中心,研究员

2016.10-2016.11,香港理工大学,屋宇设备工程系,助理研究员

2016.07-2016.08,香港科技大学,机械与宇航工程系,访问学者

2015.05-2017.10,广东工业大学,能源工程系,讲师/副教授/青年百人

2010.07-2011.10,中南建筑设计院股份有限公司(国际部、机电二所,暖通设计工程师)


三、学术兼职

Ø 国家自然科学基金评审专家

Ø 北京市自然科学基金评审专家

Ø 广东省自然科学基金评审专家

Ø 中国博士后科学基金评审专家

Ø 工业和信息领域技术预测与产业科技规划编制专家(工信部、行业专家)

Ø 军队物资工程XXXX评审专家(中央军委后勤保障部、海军部)

Ø 全国研究生教育评估监测专家库专家

Ø 教育部科技管理信息系统专家库专家

Ø 深圳市科技专家

Ø 天津市科技专家

Ø 中国制冷学会高级会员

Ø 中国工程热物理学会会员

Ø 日本传热学会会员

Ø 日本冷冻空调学会会员

Ø 博硕士学位答辩评审专家(中科院工程热物理研究所、北航、哈工大、浙大、华南理工等)


四、期刊编辑职务

Ø Recent Patents on Mechanical Engineering (Editor-in-Chief, EI, Scopus, 2020-2023)

Ø Sustainable Energy Technologies and Assessments (Guest Editor, SCI, IF=3.456, 2020)

Ø Frontiers in Energy Research (Associate Editor, SCI, IF=2.746, 2020)

Ø Frontiers in Build Environment (Review Editor, 2020)

Ø Journal of Thermal Analysis and Calorimetry (Guest Editor, SCI, IF=2.731, 2019)

Ø Energy and Buildings (Guest Editor, SCI, IF=4.457, 2019)

Ø Fluid Dynamics and Material Processing (Editorial Board Member, ESCI, 2019-2021)

Ø Energy Informatics (Springer, Associate Editor, 2019-date)

Ø Trends in Civil Engineering and Material Science (Lupine Publishers, Associate Editor, 2017-date)


五、重点研究方向

Ø 液滴冻结与结冰结霜动态特性的精准测量

Ø 两相流微通道内不稳定性及相变冷却技术

Ø 受限空间热湿传递机理与人体睡眠热舒适

Ø 空气源热泵系统匹配及运行调控策略优化

代表性论文及研究项目

一、主要出版书籍

1) Chang Shinan, Su Qian, Song Mengjie. An advanced thermal control technique for aircraft anti-icing/de-icing based on loop heat pipes, Advanced Control Techniques for Thermal Systems with Heat Exchangers. Elsevier. 1st October 2020. ISBN: 9780128194225, 522 pages.

2) Song Mengjie, Mao Ning, Xu Yingjie. Instability control of two-phase flow in microchannel heat exchangers, Advanced Control Techniques for Thermal Systems with Heat Exchangers. Elsevier. 1st October 2020. ISBN: 9780128194225, 522 pages.

3) Song Mengjie, Mao Ning, Zhang Haoran, Fan Cheng. Model predictive control applied toward the building indoor climate, Advanced Control Techniques for Thermal Systems with Heat Exchangers. Elsevier. 1st October 2020. ISBN: 9780128194225, 522 pages.

4) Song Mengjie, Deng Shiming. Defrosting for Air Source Heat Pumps: Research, Analysis and Methods, Woodhead Publishing (Elsevier). 2019. ISBN: 9780081025178, 384 pages.


二、主要学术文章

截至20212月,共发表SCI期刊文章87篇,其中第一及通讯作者55篇,详见个人ResearchGate网址及Google Scholar。近7年代表性文章如下:


2020年:

1) Ding Liang, Chang Shinan*, Yi Xian*, Song Mengjie. Coupled thermo-mechanical analysis of stresses generated in impact ice during in-flight de-icing. Applied Thermal Engineering (IF=4.725). 2020; 181: 115681.

2) Seyyed Hossein Hosseini, M. Valizadeh, Alireza Zendehboudi *, Song Mengjie*. General correlations for frost thermal conductivity on parallel surface channels. Energy and Buildings (IF=4.867). 2020; 225: 110282.

3) Song Mengjie, Xie Gongnan, Pekař Libor, Mao Ning*, Qu Minglu. A modeling study on the revere cycle defrosting of an air source heat pump with the melted frost downwards flowing away and local drainage. Energy and Buildings (IF=4.867). 2020; 226: 110257.

4) Song Mengjie*, Dang Chaobin, Higashi Tomohiro, Hihara Eiji. Review of experimental data associated with the solidification characteristics of water droplets on a cold plate surface at the early frosting stage. Energy and Buildings (IF=4.867). 2020; 223: 110103.

5) Deng Huanyu, Chang Shinan*, Song Mengjie*. The optimization of simulated icing environment by adjusting the arrangement of nozzles in an atomization equipment for the anti-icing and deicing of aircrafts. International Journal of Heat and Mass Transfer (IF=4.947). 2020; 155: 119720.

6) Mao Ning, Hao Jingyu, Xu Yingjie, Song Mengjie*, Tang Jianfeng. A numerical study on non-uniform characteristics of spray falling heat transfer over horizontal tubes in an oily sewage source heat pump. International Journal of Heat and Mass Transfer (IF=4.947). 2020; 154: 119679.

7) Song Mengjie, Mao Ning*. Experimental study on the melted frost influence on the metal energy storage during an air source heat pump defrosting. Energy and Buildings (IF=4.867). 2020; 214: 109809.

8) Song Mengjie*, Dang Chaobin, Hihara Eiji. Experimental investigation on the heat transfer characteristics of novel rectangle radial microchannel heat exchangers in two-phase flow cooling system for data centers. Journal of Thermal Analysis and Calorimetry (IF=2.731). 2020; 141: 199-211.


2019:

1) Xu Yingjie, Wang Chunyan, Jiang Ning, Song Mengjie*, Wang Qin, Chen Guangming. A solar-heat-driven ejector-assisted combined compression cooling system for multistory building - Application potential and effects of floor numbers. Energy Conversion and Management (IF=8.208). 2019; 195: 86-98.

2) Chang Shinan*, Ding Liang, Song Mengjie*, Leng Mengyao. Numerical investigation on impingement dynamics and freezing performance of micrometer-sized water droplet on flat dry surface in supercooled environment. International Journal of Multiphase Flow (IF=2.829). 2019; 118: 150-164.

3) Chang Shinan*, Yu Weidong, Song Mengjie*, Leng Mengyao, Shi Qiyu. Investigation on wavy characteristics of shear-driven water film using the planar laser induced fluorescence method. International Journal of Multiphase Fluid (IF=2.829). 2019;118:242-253.

4) Song Mengjie, Wang Zhihua, Mao Ning*, Dong Jiankai, Zhang Haoran. Defrosting start control strategy optimization for an air source heat pump unit with the frost accumulation and melted frost downwards flowing considered. Sustainable Cities and Society (IF=4.624). 2019: 46: 101461.

5) Hu Wenju, Song Mengjie*, Jiang Yiqiang, Yao Yang, Gao Yan. A modeling study on the heat storage and release characteristics of a PCM based double-spiral coiled heat exchanger in an air source heat pump unit for defrosting. Applied Energy (IF=8.426). 2019; 236: 877-892.


2018年:

1) Hu Yanxin, Sixu Chen, Huang Jin, Song Mengjie*. Marangoni effect on pool boiling heat transfer enhancement of self-rewetting fluid. International Journal of Heat and Mass Transfer (IF=4.346). 2018, 127: 1263-1270.

2) Song Mengjie, Dang Chaobin*. Review on frost characteristics measurement and calculation. International Journal of Heat and Mass Transfer (IF=4.346). 2018; 124: 586-614.

3) Liu Shengchun, Li Hailong, Song Mengjie*, Dai Baomin, Sun Zhili. Impacts on the solidification of water on plate surface for cold energy storage using ice slurry. Applied Energy (IF=8.426). 2018; 227: 284-293.

4) Song Mengjie, Tso Chiyan*, Chao Christopher Yuhang, Wu Chili. Techno-economic analysis on frosting/defrosting operations for an air source heat pump unit with an optimized multi-circuit outdoor coil. Energy and Buildings (IF=4.495). 2018; 166: 165-177.

5) Song Mengjie, Deng Shiming, Dang Chaobin, Mao Ning*, Wang Zhihua. Review on improvement for air source heat pump units during frosting and defrosting. Applied Energy (IF=8.426). 2018; 211: 1150-1170. (ESI Highly Cited Papers)


2017年:

1) Song Mengjie, Xu Xiangguo, Mao Ning*, Deng Shiming, Xu Yingjie. Energy transfer procession in an air source heat pump unit during defrosting. Applied Energy (IF=8.426). 2017; 204:679-689.

2) Song Mengjie, Gong Guangcai, Mao Ning*, Deng Shiming, Wang Zhihua. Experimental investigation on an air source heat pump unit with a three-circuit outdoor coil for its reverse cycle defrosting termination temperature. Applied Energy (IF=8.426). 2017; 204: 1388-1398.

3) Song Mengjie*, Liu Shengchun, Deng Shiming, Sun Zhili, Yan Huaxia. Experimental investigation on reverse cycle defrosting performance improvement for an ASHP unit by evenly adjusting its refrigerant distribution. Applied Thermal Engineering (IF=4.026). 2017; 114: 611-620. (ESI Highly Cited Papers)


2016年:

1) Song Mengjie, Deng Shiming, Mao Ning*, Ye Xianming. An experimental study on defrosting performance for an air source heat pump unit with a horizontally installed multi-circuit outdoor coil. Applied Energy (IF=8.426). 2016; 165: 371-382.

2) Song Mengjie, Xia Liang, Mao Ning*, Deng Shiming. An experimental study on even frosting performance of an air source heat pump unit with a multi-circuit outdoor coil. Applied Energy (IF=8.426). 2016; 164: 36-44.

3) Song Mengjie, Xia Liang*, Deng Shiming. A modeling study on alleviating uneven defrosting for a vertical three-circuit outdoor coil in an air source heat pump unit during reverse cycle defrosting. Applied Energy (IF=8.426). 2016; 161: 268-278. (ESI Highly Cited Papers)


2015年:

1) Song Mengjie, Pan Dongmei*, Li Ning, Deng Shiming. An experimental study on the negative effects of downwards flow of the melted frost over a multi-circuit outdoor coil in an air source heat pump during reverse cycle defrosting. Applied Energy (IF=8.426). 2015; 138: 598-604.

2) Song Mengjie, Wang Zhihua, Mao Ning*, Li Zhao, Chen Ying. An experimental study on the uneven refrigerant distribution over a vertically installed multi-circuit outdoor coil in an air source heat pump unit during reverse cycle defrosting. Applied Thermal Engineering (IF=4.026). 2015; 91: 975-985.


2014年:

1) Song Mengjie, Deng Shiming, Pan Dongmei*, Mao Ning. An experimental study on the effects of downwards flowing of melted frost over a vertical multi-circuit outdoor coil in an air source heat pump on defrosting performance during reverse cycle defrosting. Applied Thermal Engineering (IF=4.026). 2014; 67: 258-265.

2) Song Mengjie, Deng Shiming, Xia Liang*. A semi-empirical modeling study on the defrosting performance for an air source heat pump unit with local drainage of melted frost from its three-circuit outdoor coil. Applied Energy (IF=8.426). 2014; 136: 537-547.


三、部分主持科研项目

Ø 国家自然科学基金-面上项目

Ø 国家自然科学基金-青年项目

Ø The Japan Society for the Promotion of Science (JSPS

Ø Australian Research Council (ARC), Discovery Early Career Researcher Award (DECRA)

Ø 北京市自然科学基金-面上项目

Ø 广东省自然科学基金-自由申请项目

Ø 中国制冷学会-开放课题

Ø 中国科学院低温工程学重点实验室(理化技术研究所)-开放课题

Ø 中国空气动力研究中心结冰与防除冰重点实验室-开放课题

Ø 中低温热能高效利用教育部重点实验室(天津大学)-开放课题

成果及荣誉

Ø The 5th batch Teli Young Scholar of BIT(北京理工大学第五批特立青年学者), 2021

Ø Applied Energy期刊2018-2019年度最佳综述论文类高被引论文奖, 2020

Ø Discovery Early Career Researcher Award 2020, Australian Research Council, 2020

Ø 2019年中国热泵行业年会暨第八届国际空气源热泵行业发展论坛之论文一等奖, 2019

Ø Applied Energy 2018 Outstanding ICAE Paper, 2018

Ø Outstanding Reviewer for J Energy Storage, Appl Therm Eng, Energy, 2018

Ø FY2017 JSPS Postdoctoral Fellowship for Research in Japan (Standard), Japan, 2017

Ø Outstanding Reviewer for Appl Energ, Renew Energ, Int J Refrig, Int J Heat Mass Tran, 2017

Ø Excellent Researcher in 2016, Guangdong University of Technology, China, 2017

Ø Best Teacher in 2016, Guangdong University of Technology, China, 2017

Ø Outstanding Reviewer for Energ Buildings, Exp Therm Fluid Sci, J Energy Storage, 2016

Ø Talents of Shenzhen Peacock Plan (Level C, the 41st batch), China, 2015

Ø The Hong Kong Polytechnic University Micro Fund Scheme (100,000 HKD), Hong Kong, 2014

Ø Shanghai Technology Entrepreneurship Foundation for Graduates (200,000 RMB), China, 2014

Ø Research studentship of the Hong Kong Polytechnic University, Hong Kong, 2011-2014

Ø Outstanding Graduates in Heilongjiang Province (2%), China, 2010

Ø National 3rd Prize in Rework China Project (Peking University & Tällberg Foundation), China, 2010

Ø Hunan University Merit scholarship, China, 2004-2008

招生招聘

课题组目前有相对充裕的科研经费、在中关村校区及西山实验室基地有独立的办公室与实验室空间;已有1名教授、2名博士后、1名博士(澳洲)、3名硕士和5名本科生,还可引聘助理教授2名、博士后2名(团队岗可留校),每年招收博士研究生2名、硕士研究生3名、本科生3名。欢迎具备制冷低温、热能工程、流体力学、暖通空调、机械工程等相关学科背景、有志于从事国防领域内结霜结冰与微尺度传热研究的青年学者及同学加入我们快速发展的研究团队!

(更多信息,请查看北京理工大学结霜实验室