曹世杰

栏目:车辆工程/载运工具运用工程  发布时间:2018-06-02

姓名:曹世杰    

职务:高效能健康建筑(HEEB Team)研究团队负责人,

          建筑环境与热系统所长,土木与环调系副系主任                

更多信息见链接:http://bets.suda.edu.cn/staff/ShijieCao


研究领域

建筑通风与空气品质;低能耗建筑与节能


教育背景

2009年4月-2013年9月,博士,计算流体力学,荷语鲁汶大学(KU Leuven),比利时

2006年8月-2008年3月,硕士,计算与实验流体力学,查尔莫斯工学院(CTH),瑞典


教学课程

《工程流体力学》、《热质交换原理与设备》、《计算流体力学》


在研项目

1.        2018年1月-2021年12月,基于低雷诺数大涡模拟新方法与室内有限浓度监测的通风系统快速预测,国家自然科学基金面上项目(51778385) 

2.        2017/4-2018/04,日本文科省中日合作项目:Collaborative project with Wind Engineering Research Center(Prof. Zhang W.),Tokyo Polytechnic University .  Specific topic General topic FundPrepared with Research Theme of Indoor Environment.,"Fast predictionof pollutant dispersion for human-walking induced indoor environment"

3.        2016/4-2018/04,日本文科省中日合作项目:Collaborative project with Wind Engineering Research Center(Prof. Zhang W.),Tokyo Polytechnic University .  Specific topic General topic FundPrepared with Research Theme of Indoor Environment.,"Fast predictionof indoor pollutant dispersion based on the development of low-dimensional reduced order ventilation models"

4.        2016年1月-2018年12月,基于CFD数值模拟的室内污染物浓度快速预测模型研究,国家自然科学基金青年项目(51508362) 

5.        2015年7月-2018年6月,室内污染物浓度“低维降阶”快速预测模型构建,江苏省自然科学基金青年项目(BK20150328)

6.        2015年4月-2018年4月,基于CFD数值模拟的“低维降阶”通风模型研究,教育部留学回国启动基金


国际科研合作

1.        与美国哈佛大学公共卫生学院Spengler教授开展合作课题:“城居环境对青少年儿童健康与行为的影响”;

2.        与加州大学伯克利教育联盟开展“人体二氧化碳暴露和健康的研究”;

3.        与比利时鲁汶大学Meyers教授开展合作项目:“基于数值模拟的室内污染物快速预测模型研究”;

4.        与日本东京工芸大学张伟荣副教授合作“室内污染物快速预测及控制”;


学术任职

1.        哈佛上海中心“城市健康可持续发展峰会”成员:(主席:哈佛大学Spengler教授)“Building Leadership for Healthy Urban Sustainability” Symposium, HarvardCenter Shanghai

2.        中日风环境研究集会成员:JointUsage/Research Center Office

3.        中国环境科学学会室内环境与健康分会青年委员会委员

4.        UL Standards Technical Panel (UL标准技术评审委员会成员)forChemical and Particle Emissions from 3D Printers

5.        学术委员会成员, the10th International Symposium on Heating, Ventilation and AirConditioning – ISHVAC 2017 in Jinan, China from October 19th to 22nd,2017;

6.        学术委员会成员, the9th international conference on indoor air quality, ventilation and energyconservation in buildings, “IAQVEC 2016, Incheon Songdo, Republic ofKorea, October 23-26, 2016”;

7.        学术委员会成员,the14th international conference of Indoor Air Quality and Climate, “INDOORAIR 2016, Ghent, Belgium, July 3-8, 2016”;

8.        学术委员会成员,the11th International Conference on Industrial Ventilation, “Ventilation2015, Shanghai, China, 26 – 28, Oct. 2015”;

9.        学术委员会成员,“TheISHVAC-COBEE conference, Tianjin, China, Jul., 2015;

10.    学术委员会成员,分会场主席, the13th international conference of Indoor Air Quality and Climate “INDOORAIR 2014, Hong Kong, China, 7 – 12, July 2014”

11.    分会场主席, InternationalSymposium on Heating, Ventilating and Air-Conditioning, “ISHVAC2013,Xi’an, China, 19 – 21, Oct. 2015”


主要人才头衔及媒体

1.        2015/12,苏州市高等院校、科研院所紧缺高层次人才;

2.        2018/08,江苏省创新创业博士计划(“双创博士”);

3.        媒体报道:英国皇家化学学会(RSC)旗下的Chemistry World 以“Subway airpollution damages passenger health”为题对曹世杰课题组研究成果进行专题报道。


代表性论文(*通讯作者)

  1. Li L. ,*, Spengler John D. , Cao, S.-J., Adamkiewicz G.  (2017),Prevalence of Asthma and Allergic Conditions in Suzhou, China: Trends by Domestic Migrant Status,Journal Of Exposure Science And Environmental Epidemiology (Accepted).
  2. Cao, S.-J.*Cen,D., Zhang,W., Feng Z. (2017), Study on the impacts of human walking on indoor particles dispersion using momentum theory method,Building and Environment,V(126), pp.(195-206).
  3.  Xing Qianhe, Li Shuang*, Fan  Xueliang,  Bian Anhua ,  Cao Shi-Jie , Cheng Li(2017)Influential factors on thermoacoustic efficiency of multilayered graphene film loudspeakers for optimal design, Journal of Applied Physics, 122, 125107
  4. Zhou, Y., Deng Y., Wu P.,  Cao, S.-J.* (2017), The effects of ventilation and floor heating systems on the dispersion and deposition of fine particles in an enclosed environment,Building and Environment , V(125), pp.(192-205).
  5.  Deng Y., Paraskevas D., Cao, S.-J.* (2017), Incorporating Denitrification-Decomposition Model to Estimate Field Emissions for Life Cycle Assessment, Science of The Total Environment , 593-594, pp.(65-74).
  6. Cao, S.-J.*, Kong, X.-R., L. Li,Zhang W., Ye Z.Deng Y.* (2017)Investigation of PM2.5 and NO2 concentrations and their human  health impacts for Subway Metro system of Suzhou in China,Environmental Science: Processes and Impacts,19, pp.(666-675).
  7. Cao, S.-J.*Kong, X.-R., Deng Y., Zhang W., Yang L., Ye Z. (2017), Investigation on the thermal performance of steel heat exchanger for ground source heat pump systems using full-scale experiments and numerical simulationsApplied Thermal Engineering, 115, pp.(91-98)
  8. Kong, X.-R., Deng Y., L. Li, W.-S. Gong, Cao, S.-J.* (2017), Experimental and numerical study on thermal performance of ground source heat pump with a set of designed buried pipes,  Applied Thermal Engineering, 114, pp.(110-117)
  9. Cao, S.-J.*Zhu, D.-H. and Yang, Y. (2016), Associated relationship between ventilation rates and indoor air quality.RSC Advance.2016,6, 111427-111435 DOI: 10.1039/C6RA22902F.
  10. Deng Y., Cao, S.-J.*, Chen A.and Guo Y.(2016),The impact of manufacturing parameters on submicron particle emissions from a desktop 3D printer in the perspective of emission. Building and Environment,V(104), pp.(311-319).
  11. Cao, S.-J.*  and Meyers, J. (2015), Fast prediction of indoor pollutant dispersion based on reduced-order ventilation models, Building Simulation8(4), pp 415-420.
  12. Zhao L., Chen C.*, Wang P., Chen Z., Cao, S.-J., Wang Q., Xie G., Wan Y., Wang Y., Lu B., (2015). Influence of atmospheric fine particulate matter (PM2.5) pollution on indoor environment during winter in Beijing. Building and Environment, V(87), pp.(283-291). 
  13. Cao, S.-J.* and Meyers, J. (2014), Asymptotic requirements for the use of linear ventilation models in the presence of buoyancy forces. Building Simulation7(2), 131-136.
  14. Cao, S.-J. and Meyers, J. (2013), Influence of turbulent boundary conditions on RANS simulations of pollutant dispersion in mechanically ventilated enclosures with transitional slot Reynolds number. Building and Environment, 59, 397-407.
  15. Cao, S.-J. and Meyers, J. (2012), On the construction and use of linear low-dimensional ventilation models. Indoor Air, 22 (5), 427-441.
  16. Zhou, Y., Kong, X.-R., Chen, A.-L. and Cao, S.-J.*. (2015), Investigation of Ultrafine Particle Emissions of Desktop 3D Printers in the Clean Room. Procedia Engineering, V(21):Pages 506-512.
  17. Cao, S.-J.*, Zhu, D.-H. and Fan, X. (2015), Evaluation of the influence of transitional slot Reynolds numbers on ventilation efficiency in mechanically ventilated enclosures. Procedia Engineering, V(21):Pages 635-644.