鄧寄豫 Ji-Yu Deng
所屬學院:太阳成集团tyc234cc
導師類别:碩士生導師
科研方向:氣候适應性建築與城市設計,城市微氣候,熱舒适評價,風熱環境CFD數值模拟,建築能耗預測
聯系方式: jiyudeng@gdut.edu.cn
碩士招生學院:太阳成集团tyc234cc
個人簡述:
鄧寄豫博士本科碩士均畢業于湖南大學建築學院,博士畢業于東南大學建築學院,期間獲國家留學基金委資助公派赴新加坡國立大學聯培一年,并于2018年獲博士學位後于新加坡國立大學繼續從事博士後研究,2019年底回國就職于太阳成集团tyc234cc太阳成集团tyc234cc。
鄧寄豫博士長期從事城市風熱環境、氣候适應性城市設計、室内外熱舒适等領域研究,在新加坡國立大學做博士後研究工作期間,曾參與多項由新加坡政府資助的科研項目,在本單位工作以來,曾參與及主持多項國家和省級科研項目,發表高水平期刊論文 20 餘篇,此外還擔任多個國際學術期刊審稿人。
ResearchGate 主頁:https://www.researchgate.net/profile/Jiyu-Deng?ev=hdr_xprf
教育背景:
2012-2018 東南大學 建築學 工學博士
2006-2010 湖南大學 建築學 建築學碩士
2000-2005 湖南大學 建築學 建築學學士
工作經曆:
2019.11至今 太阳成集团tyc234cc 太阳成集团tyc234cc
2018.04 - 2019.11 新加坡國立大學 設計與環境學院 博士後研究員
2010.09 - 2012.07 吉林大學珠海學院 建築學系 教師
2005.07 - 2006.07 湖南大學設計研究院 建築師
學術兼職:
Building and Environment, Sustainable Cities and Society, Urban Climate, Computers, Environment and Urban Systems, Frontiers of Architectural Research等學術期刊審稿人
主要科研項目:
1. 廣東省自然科學基金面上項目,濕熱地區高層高密度街區空間形态與垂直風環境的耦合機理研究,(NO. 2022A1515010769), 在研,主持
2. 廣東省自然科學基金面上項目,一體化應對夏季高濕環境和冬季過度制冷的日間輻射制冷優化路徑研究,(NO. 2024A1515012817), 在研,主持
3. 國家自然科學基金面上項目,三維視角下建成區附屬開放空間供需匹配測度與共享機制研究,(NO. 52278053), 在研,參與
4. 國家自然科學基金面上項目,基于公共衛生安全的體育場館“應疫”設計研究,(NO. 52078140), 結題,參與
5. 國家十四五重點研發計劃項目子課題,城市社區格局、過程及其生态服務 功能耦合機理——南方代表性城市社區空間格局演變與生态影響,(NO. 2022YFF1303101), 在研,參與
6. National University of Singapore Research Funding, Development of a Multiscale Urban Microclimate Model for NUS Campus Thermal Environment. (NO. R-296-000-186-133), 500,000 SGD, Participant.
7. Building and Construction Authority-Green Buildings Innovation Cluster & National Research Foundation Singapore, Energy Efficient Building Facades for Thermal Comfort Environment. (NO. R-296-000-169-490), 465,864 SGD, Participant.
主要代表論文:
1. Deng J.-Y., Xia Y., Lao H., Ye Y., Wang Z., Jiang H.*. (2024). Natural ventilation potential of teaching building complexes with different block shapes and layout patterns. Journal of Building Engineering, 96, 110420.
2. He Y.*, Wong C.H.M., Deng J., Liu Z., Ng E. (2024). Designing breezeways to enhance wind environments in high-density cities: A comprehensive analysis of ten morphological parameters. Sustainable Cities and Society, 116, 105898.
3. Dai M., Chen Z., Hu W., Liang J., Deng J.*. (2024). Mechanical properties of cementitious metallic hollow sphere composite under compression. Materials Letters, 276, 137294.
4. Xu Z.*, Huang X., Zheng X., Deng J.-Y., Sun B. (2024). A Performance and Data-Driven Method for Optimization of Traditional Courtyard. Sustainability, 16, 5779.
5. Deng J.-Y., He Y., Dai M.*. (2023). Evaluation of the outdoor thermal environment for three typical urban forms in Nanjing, China. Building and Environment, 238, 110358.
6. Deng J.-Y., Wong N.H., Hii D.J.C., Yu Z., Tan E., Zhen M., Tong S.*. (2023). Impact of architectural design strategies on the indoor natural ventilation of public residential buildings in Singapore. Urban Climate, 52, 101741.
7. Ji H., Wu S., Ye B., Wang S., Chen Y., Deng J.-Y.*. (2023). Exploring the Implementation Path of Passive Heat-Protection Design Heritage in Lingnan Buildings. Buildings, 13, 2954.
8. Deng J.-Y., Wong N.H., Hii D.J.C., Yu Z., Tan E., Zhen M., Tong S.*. (2022). Indoor Thermal Environment in Different Generations of Naturally Ventilated Public Residential Buildings in Singapore. Atmosphere, 13, 2118.
9. He Y.*, Tablada., Deng J.-Y., Shi Y., Wong N.H., Ng E. (2022). Linking of pedestrian spaces to optimize outdoor air ventilation and quality in tropical high-density urban areas. Urban Climate, 45, 101249.
10. Ji H., Huang L., Li M., Zhang J., Jing Q., Deng J.-Y.*. (2022). A Comparative Study on Technical Standards for the Design of Emergency Medical Facilities in China in the Context of COVID-19. Buildings, 12, 1502.
11. Deng J.-Y.*, Wong N.H., Zheng X. (2021). Effects of street geometries on building cooling demand in Nanjing, China. Renewable and Sustainable Energy Reviews, 142, 110862.
12. Wong N.H., He Y.*, Nguyen N.S., Raghavan S.V., Martin M., Hii D.J.C., Yu Z., Deng J. (2021). An integrated multiscale urban microclimate model for the urban thermal environment. Urban Climate, 35, 100703.
13. Martin M., Wong N.H.*, Ignatius M., Hii D.J.C., He Y., Yu Z., Deng J.-Y., Raghavan S.V., Nguyen N.S. (2021). A physically-based model of interactions between a building and its outdoor conditions at the urban microscale. Energy and Buildings, 237, 110788.
14. Dai M., Liang J., Cheng C., Wu Z., Lu J., Deng J.*. (2021). Large Deformation and Energy Absorption Behaviour of Perforated Hollow Sphere Structures under Quasi-Static Compression, Materials, 14, 3716.
15. Deng J.-Y.*, Wong N.H. (2020). Impact of urban canyon geometries on outdoor thermal comfort in central business districts. Sustainable Cities and Society, 53, 101966.
16. Yu Z.*, Chen S., Wong N.H., Ignatius M., Deng J., He Y., Hii D.J.C. (2020). Dependence between urban morphology and outdoor air temperature: A tropical campus study using random forests algorithm. Sustainable Cities and Society, 61, 102200.
17. 鄧寄豫, 鄭炘*, Wong N.H. (2018). 街道層峽形态對夏季室外氣溫及熱舒适的影響. 浙江大學學報(工學版), 52(2), 873-885.
18. Deng, J.-Y.*, Wong N.H., Zheng X. (2016). The study of the effects of building arrangement on microclimate and energy demand of CBD in Nanjing, China. Procedia Engineering, 169, 44-54.
教學活動:
《建築設計》,《房屋建築學》等課程
