2016.09-2020.04

同济大学，机械与能源工程学院，供热、供燃气、通风与空调工程专业，博士毕业。

2013.09-2016.03

同济大学，机械与能源工程学院, 供热、供燃气、通风与空调工程专业，硕士毕业。

2009.09-2013.07

哈尔滨工业大学，市政环境工程学院，建筑环境与设备工程专业,本科毕业。

2020.05-2023.04

2023.04-至今

同济大学环境科学与工程学院博士后流动站  博士后

同济大学机械与能源工程学院  助理教授

流体动力学是建筑环境学科的重要基础，建筑环境内的复杂空气流动根据其流动机理与约束强弱可分为自由（对流）扩散流动、有组织流动与定向定点流动。本人研究工作的出发点是将流体动力学理论与技术创新用于室内空气污染源辨识与通风控制，聚焦室内空气自由（对流）扩散流动的反演动力学、有组织流动的捕集动力学与定向定点流动的气流反向设计，主持国家自然科学基金青年项目与中国博士后科学基金面上项目各1项；以第一、共一、通讯作者身份在本领域重要国际期刊发表SCI论文17篇；授权发明专利17项；参编行业标准1项；获上海市科技进步奖、同济大学2020年度优秀博士学位论文、上海市博士后日常经费资助、第二届华人能源与人工环境国际学术会议最佳口头报告、全国暖通空调模拟学术年会优秀论文、Ventilation 2015 国际学术会议Best Poster奖等。

主要研究创新成果

一、突破了室内空气自由（对流）扩散流动中污染源快速反演与精准预警机制

在解析集中通风系统污染传播动力学基础上，构建了基于伴随概率方法的风管网突发污染快速溯源算法；并结合逆马尔科夫链与贝叶斯方法，在反演模型层面统一了“系统+空间”中污染传播的概率描述，实现了在设有集中风系统的复杂建筑空间中污染源的精准辨识（通风系统停止（开启）时即为自由（对流）扩散流动），反演时间达到秒级。基于传感器探测的可及性和时效性原理，提出了基于矩阵判定的室内传感器网络全遍历寻优方法。该成果为建筑空气安全的保障提供了重要理论基础。

二、发展了室内多源散发污染的有组织捕集动力学

针对复杂集中通风收集系统末端随机启闭特征，掌握了基于蒙特卡洛法与随机抽样法的压力、风量分布规律，提出了面向恒定风量需求的FOC矢量控制型高效捕集装备，开发了以新型均匀排风装置替代定风量阀的简易总风量变风量策略，建立了空气污染循环浓缩最优风量及配套气流组织设计优化方法。该成果为实现多源散发变风量节能收集与低碳运行提供了技术保障。

三、提出了面向室内移动工人呼吸防护的定向定点气流反向设计方法

面向传统固定式工位送风的缺陷，发展了基于最小包络算法的气流设计平面域生成技术，突破了基于遗传算法耦合伴随方法的防护气流设计参数反向优化方法，实现了移动工人呼吸区的定向追踪保护。该成果通过污染收集与个体防护的技术联动，推动了工厂工人职业防护能力的提升。

主持项目

参与项目

学术成果与奖励

参编标准

授权专利

（代表10项）

发表论文

1. 国家自然科学基金青年项目，《联合视觉探测与浓度传感的室内突发污染源辨识与应急研究》（项目编号：52108089），2022.1~2024.12

2. 中国博士后科学基金面上项目，《基于机器人视觉及多传感走航监测的集中空调通风系统内部环境评价与诊断》（项目编号：2020M681391），2020.11~2024.04

3. 中央高校基本科研业务费自主原创项目，《基于液膜包络效应协同局部射流驱动的工业伴热散发污染捕集机制》，2024.04~2026.03

4. 上海市博士后日常经费资助，2020.12~2024.04

5. 上海市杨浦区博士后创新实践基地项目，2022.10~2023.10

6. 上海市环境监测中心横向委托项目，2024.05~2025.12

1. 国家自然科学基金面上项目，《面向工业环境移动个体的送风气流反向设计》（项目编号：52078354），2021.1~2024.12

2. 国家自然科学基金面上项目，《车间多污染源间歇性散发下的变排风量系统研究》（项目编号：51778440），2018.1~2021.12

3. 国家自然科学基金面上项目，《高层住宅厨房均匀自适应排烟动力学与设计方法研究》（项目编号：51578387），2016.1~2019.12

4. 国家自然科学基金面上项目，《建筑集中式空调风系统毒气污染传播快速预警与源辨识》（项目编号：51278370），2013.1～2016.12

5. “十三五”国家重点研发计划课题，《有害气体散发特性与控制关键技术研究》，（课题编号：2017YFC0705303），2018.07～2021.12

6. “十三五”国家重点研发计划子课题，产业园区废弃物梯次利用模式构建研究(子课题编号：2020YFD1100402-5)，2020.10-2022.10

7. 中央高校基金学科交叉项目，《室内人员密集场所突发污染快速溯源及综合控制技术》（项目编号：kx0100020173432），2017.09～2018.08

8. 技术咨询，除尘器滤筒内部流场模拟及结构优化研究，2022.03~2023.03

9. 技术咨询，超长水下隧道温度控制技术研究，2021.12～2023.12

10. 技术咨询，VOCs吸附浓缩技术方案及效果测试，2018.03～2018.04

11. 技术咨询，VOCs废气捕集效率与通风控制研究，2018.03～2018.05

12. 技术开发，等截面均匀排风管压力阻力参数测试与计算方法研究，2014.04～2014.12

13. 技术咨询，海军某舰装载舱热环境及通风测试评估，中国船舶工业集团708研究所，2014.12

1. 2022年，上海市科技进步二等奖（4/10）

2. 2021年，第二届华人能源与人工环境国际学术会议，最佳口头报告

3. 2020年，同济大学优秀博士学位论文

4. 2020年，上海市优秀毕业生

5. 2018年，博士研究生国家奖学金

6. 2017年，全国暖通空调模拟学术年会优秀论文

7. 2015年，Ventilation 2015 国际学术会议Best Poster奖

《橡胶工厂废气收集处理设计规范》，行业标准，参编（10）

1. 发明，工人在车间移动停留时间概率峰谷图的绘制方法及其应用，ZL202011598115.7（第一发明人）

2. 发明，一种面向工业环境移动个体的工位送风设计方法，ZL202011594369.1（第一发明人）

3. 发明，一种集中空调风系统突发污染分布检测点的优化布置方法，ZL201710135136.7（第一发明人）

4. 发明，一种基于飞行传感器巡逻轨迹优化的突发污染溯源方法，ZL201910131930.3（第一发明人）

5. 发明，应对公共建筑室内突发空气污染的处理方法，ZL201810331285.5（第一发明人）

6. 发明，光伏通道风量测试装置，ZL2014100771004 （第二发明人）

7. 发明，吸附滤网初始效率测量方法、系统、存储介质及装置，ZL202010170056.7（第三发明人）

8. 发明，蜂窝形吸附滤网阻力测量方法、系统、存储介质及装置，ZL202010187054.9（第三发明人）

9. 发明，固定床空隙率测量系统及其使用方法，ZL201910329848.1（第三发明人）

10. 发明，一种可实现舒适性送风的导流装置和包含该装置的空调器，ZL202110355701.7（第三发明人）

第一作者：

1. Zeng Lingjie, Tong Leqi, Gao Jun* et al. Pressure and flowrate distribution in central exhaust shaft with multiple randomly operating range hoods. Building Simulation (SCI), 2022; 15, 149-165.

2. Zeng Lingjie, Wang Yirui, Gao Jun* et al. Experimental studies on the flow characteristics of a centralized exhaust system with multiple distribution of open terminals. Journal of Building Engineering (SCI). 2021; 42: 102801.

3. Zeng Lingjie, Wang Yirui, Gao Jun* et al. A variable air volume control strategy for a centralized exhaust system with multiple on-off switched terminals and flow-guide devices. Journal of Building Engineering (SCI), 2021; 38: 102185.

4. Zeng Lingjie, Tong Leqi, Gao Jun* et al. A novel constant-air-volume range hood for high-rise residential buildings with central shaft. Energy and Buildings (SCI), 2021; 245: 111086.

5. Zeng Lingjie, Liu Guodong, Gao Jun* et al. A circulating ventilation system to concentrate pollutants and reduce exhaust volumes: case studies with experiments and numerical simulation for the rubber refining process. Journal of Building Engineering (SCI), 2021; 101984.

6. Zeng Lingjie, Gao Jun*, Lv Lipeng, et al. Localization and characterization of intermittent pollutant source in buildings with ventilation systems: Development and validation of an inverse model. Building Simulation (SCI), 2021; 14(3): 841-855.

7. Zeng Lingjie, Gao Jun*, Lv Lipeng, et al. Markov-chain-based inverse modeling to fast localize hazardous gaseous pollutant sources in buildings with ventilation systems. Building and Environment (SCI), 2020; 169: 106584.

8. Zeng Lingjie, Gao Jun*, Lv Lipeng, et al. Markov-chain-based probabilistic approach to optimize sensor network against deliberately released pollutants in buildings with ventilation systems. Building and Environment (SCI), 2020; 168: 106534.

9. Zeng Lingjie, Du Bowen, Lv Lipeng, Gao Jun*,et al. Occupant exposure and ventilation conditions in Chinese residential kitchens: Site survey and measurement for an old residential community in Shanghai. Journal of Building Engineering (SCI), 2020; 31: 101406.  

10. Zeng Lingjie,Gao Jun*, Wang Qiong, et al. A risk assessment approach for evaluating the impact of toxic contaminant released indoor by considering various emergency ventilation and evacuation strategies. Risk Analysis (SCI), 2018; 38(11): 2379-2399.

11. Zeng Lingjie, Gao Jun*, Du Bowen, et al. Probability-based inverse characterization of the instantaneous pollutant source within a ventilation system. Building and Environment (SCI), 2018; 143: 378-389.

12. Zeng Lingjie, Chen Yuqing, Ma Mingyao, et al. Prediction of mould growth rate within building envelopes: development and validation of an improved model. Building Services Engineering Research & Technology (SCI), 2022; Online.

13. Gao Jun*, Zeng Lingjie（导师第一，本人第二）, Cao Changsheng, Ye Wei, Zhang Xu. Multi-objective optimization for sensor placement against suddenly released contaminant in air-duct system. Building Simulation (SCI), 2018; 11(1): 139-153.

14. Gao Jun*, Zeng Lingjie（导师第一，本人第二）, Wu Li, Ding Xihui, Zhang XU, Solution for sudden contamination transport through air duct system: Under a puff release, Building and Environment (SCI), 2016; 100: 19-27.

15. Zeng Lingjie, Chen Yuqing, Cao Changsheng et al. Influence of materials' hygric properties on the hygrothermal performance of internal thermal insulation composite systems. Energy and Built Environment (Scopus), 2022, Online https://doi.org/10.1016/j.enbenv.2022.02.002.

16. 曾令杰,高军*,杜博文.空调风系统突发污染监测传感器优化布置分析.哈尔滨工业大学学报 (EI), 2018; 50(2): 1-6.

17. 曾令杰,高军*.基于遗传算法的空调风系统突发污染快速溯源.同济大学学报(自然科学版) (EI), 2017; 45(8): 1198-1203.

18. Zeng Lingjie,Gao Jun*. Contaminant Source Identification within an Air Duct System: Using a Backward Probabilistic Model. Procedia Engineering (ISHVAC 2017) (EI国际会议); 205: 3485-3492.

19. Zeng Lingjie, Gao Jun*. Modeling of contaminant transport in a ventilation system using a one-dimensional advection and diffusion equation. Proceedings of Ventilation 2015 (EI国际会议); 1: 155-163.

非第一作者、非通讯作者：

1. Lv Lipeng, Zeng Lingjie, Wu Yuhang et al. Effects of human walking on the capture efficiency of range hood in residential kitchen. Building and Environment (SCI), 2021; 196: 107821.

2. Lv Lipeng, Zeng Lingjie, Wu Yuhang et al. The application of an air curtain range hood in reducing human exposure to cooking pollutants. Building and Environment(SCI), 2021; 205: 108204.

3. Zhang Ruiyan, Zeng Lingjie, Wang Fei et al. Influence of pore volume and surface area on benzene adsorption capacity of activated carbons in indoor environments. Building and Environment(SCI), 2022; 216: 109011.

4. Zhang Zhonghua, Zeng Lingjie, Shi Huixian et al. CFD studies on the spread of ammonia and hydrogen sulfide pollutants in a public toilet under personalized ventilation. Journal of Building Engineering(SCI), 2022; 46: 103728.

5. Zhang Zhonghua, Zeng Lingjie, Shi Huixian et al. Dynamics and numerical simulation of contaminant diffusion for a non-flushing ecological toilet. Energies(SCI), 2021; 14: 7570.

6. Zhang Zhonghua, Zeng Lingjie, Shi Huixian et al. CFD study on the ventilation effectiveness in a public toilet under three ventilation methods. Energies (SCI), 2021; 14: 8379.

7. Lv Lipeng, Gao Jun*, Zeng Lingjie et al. Performance assessment of air curtain range hood using contaminant removal efficiency: An experimental and numerical study. Building and Environment(SCI), 2021; 188: 107456.

8. Liu Guodong, Gao Jun*, Zeng Lingjie, et al. On-demand ventilation and energy conservation of industrial exhaust systems based on stochastic modeling. Energy and Buildings(SCI), 2020; 223: 110158.

9. Zhang Chengquan, Gao Jun*, Zeng Lingjie, et al. Experimental analysis of the resistance of packed beds based on the morphology of cylinder. Powder Technology(SCI), 2020; 369: 238-247.

10. Wang Yirui, Gao Jun*, Zeng Lingjie, et al. Overlapping of cooking behavior in high-rise residential buildings. Energy and Buildings(SCI), 2020; 210: 109764.

11. Zhang Ruiyan, Li Zhenhai*, Zeng Lingjie. Experimental study of the relationship between initial single-pass efficiency and structural parameters of honeycomb adsorption filters. Building and Environment(SCI), 2020; 186: 107332.

12. Zhang Ruiyan, Li Zhenhai*, Zeng Lingjie et al. Pressure drop in honeycomb adsorption filters filled with granular activated carbon. Powder Technology(SCI), 2021; 393: 550-558.

13. Liu Kai, Yang Shengwei, Zeng Lingjie et al. Combining push-pull airflow and top draft hood for local exhaust of tyre vulcanization process. Energy and Built Environment (Scopus), 2020; 1:296-306.

14. Lv Lipeng, Wu Yuhang, Cao Changsheng, Zeng Lingjie et al. Impact of different human walking patterns on flow and contaminant dispersion in residential kitchens: Dynamic simulation study. Building Simulation(SCI), 2022; 15: 1051-1066.  

15. He Lianjie, Gao Jun*, Chen Jie, Zeng Lingjie et al. Experimental studies of natural make-up air distribution for Chinese residential cooking. Journal of Building Engineering(SCI), 2021; 44: 102911.

16. Yang Fan, Gao Jun*, Cao Changsheng, Zeng Lingjie et al. Novel kitchen ventilation system with the cabinet-bottom air supply. Journal of Building Engineering (SCI), 2022; In press.

17. Tong Leqi, Gao Jun*, Luo Zhiwen, Wu Li, Zeng Lingjie, et al. A novel flow-guide device for uniform exhaust in a central air exhaust ventilation system. Building and Environment(SCI), 2019; 149: 134-145.

18. Gao Yulei, Jiang Jikang, Shen Zheng*, Zhang Xu, Zeng Lingjie, Shao Xiaolu. Lifecycle assessment of a non-phase-transition drying pyrolysis and mass conversion technology. Energies(SCI), 2021; 14: 7394.

19. Ma Mingyao, Cao Changsheng, Xu Yukun, Liu Zhijian, Zeng Lingjie, et al. Using CONTAM to design ventilation strategy of negative pressure isolation ward considering different height of door gaps. Energy and Built Environment (Scopus), 2022; In press.

20. Xie Wuhao, Gao Jun*, Lv Lipeng, Hou Yumei, Cao Changsheng, Zeng Lingjie et al. Parametrized design for the integration of range hood and air cleaner in the kitchen. Journal of Building Engineering(SCI), 2021; 43: 102878.

21. Zhang Jing, Gao Jun*, Wang Jian, Cao Changsheng, Xie Mengxiao, Zeng Lingjie et al. The performance of different ventilation methods in residential kitchens with different spatial organizations: A literature review. Building and Environment(SCI), 2021, 20: 107990.

22. Xie Wuhao, Gao Jun*, Lv Lipeng, Cao Changsheng, Hou Yumei, Wei Xiaobin, Zeng Lingjie. Exhaust rate for range hood at cooking temperature near the smoke point of edible oil in residential kitchen. Journal of Building Engineering(SCI), 2022; 45: 103545.

23. Wu Yuhang, He Lianjie, Lv Lipeng, Gao Jun*, Cao Changsheng, Xie Wuhao, Zeng Lingjie et al. Parametric analysis of a rotating disk for cooking oil fume particle removal. Building and Environment(SCI), 2021; 204: 108121.

24. Zhang Chengquan, Gao Jun*, Xu Yukun, Xia Yunfei, Wei Xiaobin, Su Xing, Zeng Lingjie. Void fraction for random loose packing of the cylindrical particles considering filling rate, material and shape. Particuology(SCI), 2021, 63: 35-46.

25. Zhang Chengquan, Gao Jun*, Xu Yukun, Xia Yunfei, Wei Xiaobin, Su Xing, Zeng Lingjie. Random loose packing of cylindrical particles considering filling rate. Powder Technology (SCI), 2021, 386: 98-107.

26. Zhang Jing, Wang Jian, Gao Jun*, Cao Changsheng, Lv Lipeng, Xie Mengxiao, Zeng Lingjie. Critical velocity of active air jet required to enhance free opening rectangular exhaust hood. Energy and Buildings(SCI), 2020; 225: 110316.

27. Zhang Jing, Wang Jian, Gao Jun*, Cao Changsheng, Lv Lipeng, Xie Mengxiao, Zeng Lingjie. Experimental and numerical study of the effect of perimeter jet enhancement on the capture velocity of a rectangular exhaust hood. Journal of Building Engineering(SCI), 2021; 33: 101652.

28. Xu Yukun, Cao Changsheng, Ma Mingyao, Jiao Zheng, Cheng Lingli, Xie Wuhao, Gao Jun*, Zeng Lingjie. Direction air supply design and optimization in industrial settings to reduce gaseous contaminant exposure. Building and Environment(SCI), 2022; 216: 109003.

29. Zhang Chengquan, Xia Yunfei, Gao Jun*, Xu Yukun, Wu Haoxie, Yu Yanlei, Zeng Lingjie et al. A novel model of pressure drop for airflow penetrating randomly packed cylindrical particles. Powder Technology(SCI), 2022; 408: 117727.

30. 高军,曾令杰.地铁站轨行区排风均匀性模拟研究与实验验证，建筑热能通风空调，2015，34(5): 30-33.

31. 张承全,高军*,曾令杰,等.基于过滤浓度日数的新风PM2.5过滤负荷特性的研究.同济大学学报(自然科学版) (EI), 2017, 45(9): 1345-1351.

32. 张承虎,严艳秋,曾令杰,等.水洗－ 凝露式烟气三回收工艺与集成设备.节能技术, 2013; 31(182): 551-554.