1.基本信息:
姓名:何宝杰
学位:工学博士
学历:博士研究生
最后毕业院校:新南威尔士大学,建筑环境学院
职称:研究型教授,弘深青年学者,博士生导师
联系方式:baojie.he@cqu.edu.cn
研究方向:城市通风降温;热岛效应缓解策略;净零碳建筑
学术兼职:
国际期刊Frontier in Built Environment副主编
应用生态学报编委
国际期刊Buildings编委
国际期刊Journal of Urban Management and Energy Sustainability编委
国际期刊Sustainable Cities and Society期刊客座编辑
国际期刊Buildings, Atmosphere, Remote Sensing, Sustainability, Land期刊下Climate Change and Environmental Sustainability话题主编
国际期刊Sustainability期刊客座编辑
国际期刊Frontiers in Public Health期刊客座编辑
第一届气候变化与环境可持续性(CCES)国际会议大会主席
国际期刊Building and Environment, Sustainable Cities and Society, Energy and Buildings, Journal of Building Engineering优秀审稿人
2.教育简历:
2016/08 – 2020/06,新南威尔士大学,建成环境学部,哲学博士
2012/09-2015/06,上海理工大学,环境与建筑学院,工学硕士
2008/09-2012/06,青岛理工大学,土木工程学院,工学学士
3.工作简历:
2020/12 –至今,重庆大学,建筑城规学院,弘深青年学者,研究员,博士生导师
2020/06 – 2020/12,新南威尔士大学,低碳生活研究中心,博士后
2019/04 – 2019/07,新南威尔士大学,高性能建筑研究中心,兼职副研究员
2018/07 – 2019/06,新南威尔士大学,建成环境学部,助教
4.代表性成果:
4.1著作论文
[1] He, B. J.*, Zhao, D., Xiong, K., Qi, J., Ulpiani, G., Pignatta, G., ... & Jones, P. (2021). A framework for addressing urban heat challenges and associated adaptive behavior by the public and the issue of willingness to pay for heat resilient infrastructure in Chongqing, China. Sustainable Cities and Society, 75, 103361.
[2] Zhao, Z., Sharifi, A., Dong, X., Shen, L., & He, B. J.* (2021). Spatial Variability and Temporal Heterogeneity of Surface Urban Heat Island Patterns and the Suitability of Local Climate Zones for Land Surface Temperature Characterization. Remote Sensing, 13(21), 4338.
[3] He, B. J.*, Wang, J., Liu, H.,& Ulpiani, G. (2021). Localized synergies between heat waves and urban heat islands: Implications on human thermal comfort and urban heat management. Environmental Research, 193, 110584.
[4] Wei, G., Zhang, Z.*, Ouyang, X., Shen, Y., Jiang, S., Liu, B., & He, B. J.* (2021). Delineating the spatial-temporal variation of air pollution with urbanization in the Belt and Road Initiative area. Environmental Impact Assessment Review, 91, 106646.
[5] Zhang, G., & He, B. J. (2021). Towards green roof implementation: Drivers, motivations, barriers and recommendations. Urban Forestry & Urban Greening, 58, 126992.
[6] He, B. J.*, Ding, L., & Prasad, D. (2020). Outdoor thermal environment of an open space under sea breeze: A mobile experience in a coastal city of Sydney, Australia. Urban Climate, 31, 100567.
[7] He, B. J.*, Ding, L., &Prasad, D. (2020). Relationships among local-scale urban morphology, urban ventilation, urban heat island and outdoor thermal comfort under sea breeze influence. Sustainable Cities and Society, 60, 102289.
[8] He, B. J.*, Ding, L., &Prasad, D. (2020). Urban ventilation and its potential for local warming mitigation: A field experiment in an open low- gridiron precinct. Sustainable Cities and Society, 55, 102028.
[9] He, B. J.*, Ding, L., &Prasad, D. (2020). Wind sensitive urban planning and design: Precinct ventilation performance and its potential for local warming mitigation in an open midrise gridiron precinct. Journal of Building Engineering, 29, 101145.
[10] He, B. J.* (2019). Towards the next generation of green building for urban heat island mitigation: Zero UHI impact building. Sustainable Cities and Society, 101647.
[11] Zhang, G., He, B. J.*, & Dewancker, B. J. (2020). The maintenance of prefabricated green roofs for preserving cooling performance: A field measurement in the subtropical city of Hangzhou, China. Sustainable Cities and Society, 61, 102314.
[12] Wang, J., He, B. J.*, Wang, H., & Santamouris, M. (2019). Towards higher quality green building agenda–An overview of the application of green building techniques in China. Solar Energy, 193, 473-493.
[13] He, B. J., Zhao, Z. Q.*, Shen, L. D., Wang, H. B., & Li, L. G. (2019). An approach to examining performances of cool/hot sources in mitigating/enhancing land surface temperature under different temperature backgrounds based on Landsat 8 image. Sustainable Cities and Society, 44, 416-427.
[14] Liu, Z. *, Liu, Y., He, B. J. *, Xu, W., Jin, G.,& Zhang, X. (2019). Application and suitability analysis of the key technologies in nearly zero energy buildings in China. Renewable and Sustainable Energy Reviews, 101, 329-345.
[15] He, B. J.*, Ding, L., &Prasad, D. (2019). Enhancing urban ventilation performance through the development of precinct ventilation zones: A case study based on the Greater Sydney, Australia. Sustainable Cities and Society, 47, 101472.
[16] He, B. J., Zhu, J.*, Zhao, D.X., Gou, Z. H., Qi, J. D., & Wang, J. (2019). Co-benefits approach: Opportunities for implementing sponge city and urban heat island mitigation. Land Use Policy, 86, 147-157.
[17] Qi, J. D., He, B. J.*, Wang, M., Zhu, J., & Fu, W. C. (2019). Do grey infrastructures always elevate urban temperature? No, utilizing grey infrastructures to mitigate urban heat island effects. Sustainable Cities and Society, 46, 101392.
[18] He, B. J.* (2018). Potentials of meteorological characteristics and synoptic conditions to mitigate urban heat island effects. Urban Climate, 24, 26-33.
[19] He, B. J.*, Zhao, D. X., Zhu, J., Darko, A., & Gou, Z. H. (2018). Promoting and implementing urban sustainability in China: An integration of sustainable initiatives at different urban scales. Habitat International, 82, 83-93.
[20] Mou, B., He, B. J. *, Zhao, D. X.,& Chau, K. W. (2017). Numerical simulation of the effects of building dimensional variation on wind pressure distribution. Engineering Applications of Computational Fluid Mechanics, 11(1), 293-309.
4.2科研课题:
[1]横向科研项目自然科学类,评估智慧城市项目对选定亚太城市气候适应力的实际和潜在贡献 (H20210024),亚太全球变化研究组织,课题负责人,2021.01-2021.05
[2]中央高校基本科研业务费,城市通风对城市热环境及建筑能耗的影响研究,重庆大学,课题负责人,2021.01-2022.12
[3]横向科研项目自然科学类,气候紧急:澳大利亚净零碳建筑环境,澳大利亚低碳生活研究中心,主研,2020.05-2022.06
[4]横向科研项目自然科学类,微气候和城市热岛减缓决策支持工具,澳大利亚低碳生活研究中心,参与,2017.01-2018.12
[5]横向科研项目自然科学类,悉尼降温策略-悉尼2050规划,悉尼市政府,主研,2019.02-2019.06
[6]横向科研项目自然科学类,太阳能光伏和空调废热对城市热岛效应的影响研究,新南威尔士州环境与遗产办公室,主研,2019.06-2019.11
[7]横向科研项目自然科学类,低碳绿色建筑能耗评估分析,澳大利亚低碳生活研究中心,参与,2016.01-2017.12
4.3奖项奖励:
[1] Mendeley 2021全球单年度及职业生涯前2% (100,000)科学家 ;
[2] 2021年 德国联邦教育和研究部 全球“绿色人才奖”获得者
[3] 2020年MPDI全球优秀审稿人奖获得者
[4]中国教育部 优秀自费博士留学生 ;
[5] Energy and Built Environment全球华人优秀博士生 提名奖 ;
[6]澳大利亚联邦政府 全额博士奖学金;
[7]多个国际期刊优秀审稿人Building and Environment, Sustainable Cities and Society, Energy and Buildings, Journal of Building Engineering。
