校内导师

张 涛

发布人:张涛   发布时间:2024-07-02   点击:  

一、基本情况

 

AILCD亚洲低碳设计学会理事

日本建筑学会会员

Leed AP 

科研上,一方面研究致力于乡村振兴中我国农村可持续发展方面的研究,研究的对象覆盖我国的西北黄土高原地区,川东及成都地区,山东滨海及内陆地区。研究成果包含了从村落规划,农村住宅生态化建设,住宅室内外热环境模拟与优化,建筑能耗模拟与优化,住宅全生命期碳排放研究。另一方面,研究致力于日本木构建筑技术研究,以及绿色建材高性能化技术开发研究。这些研究内容建立在建筑学的基础上,将建筑设计、建筑热环境、建筑技术及建筑材料等多学科的内容进行融合。曾经先后获得日本文部科学省全额奖学金,日本学术类高度人才称号。同时作为中日国际交流活动的主要负责人,主导了一系列建筑与城乡规划学院与日本高校间的学生国际学术交流与合作项目。

二、学习及工作经历

 

2003.09-2008.07 青岛理工大学、建筑与城乡规划学院 学士

2008.09-2011.07 西安交通大学、人居环境与建筑工程学院 硕士

2013.10-2016.09 北九州市立大学、国际环境工学部建筑学科 博士

2011.07-2013.08 青岛腾远设计事务所有限公司(TYDI) 建筑设计师

2017.04-至今 日本北九州市立大学、国际环境工学部  特任研究员

2019.01-至今 青岛理工大学建筑与城乡规划学院 讲师

三、研究领域

乡村规划与住宅生态化建设、建筑室内热环境、现代木构技术与高性能木材开发

 

四、主讲课程

本科生课程:建筑设计

研究生课程:现代建筑理论方法、研究方法论

五、主要科研项目

  1. 主持青岛市自然科学基金原创探索项目:基于住环境改善的青岛滨海农村健康住宅低碳化设计策略研究,2023

  2. 主持青岛市双百调研工程项目:青岛滨海渔村产业转型评估体系与土地利用变迁研究,2023

  3. 主持青岛统一战线智库课题:乡村振兴背景下基于驱动力比较分析的青岛市村落空间布局研,2020

  4. 主持青岛理工大学校立课题:山东农村生态化建设发展研究,2019

  5. 主持日本北九州市立大学联合研究课题子课题:高強度集成材S-CRWの製造方法及び普及のための研究,2017

  6. 主持日本北九州市立大学联合研究课题子课题:不燃圧縮木材の製造方法に関する研究,2019

  7. 主持日本北九州市立大学联合研究课题子课题:耐火構造建築物への利用在目的とした不燃建材の開発に関する研究,2021

  8. 主持日本北九州市立大学联合研究课题子课题:国産木材の普及を目的とした木材および建材の高機能化技術開発に関する研究,2022

     

六、主要学术成果

  1. Zhang, T., Hu, Q.*, Y., Dewancker, B. J., & Gao, W. (2024). Comparative Assessment of Consumer Attitudes to Timber as a Construction Material between China and Japan. Forest Products Journal, 74(2), 165-177.

  2. Shi, J., Zhang, T.*, Bai, L., Fukuda, H., & Gao, W. (2024). Comparative analysis on the mechanism of climate responsiveness strategies on indoor thermal performance of Yaodong dwellings in the Loess Plateau region of China. Energy Reports, 11, 4741-4758.

  3. Yao, W., Zhang, T.*, Fukuda, H., Wang M., & Yang, Jin. (2024). Assessing Utilization and Comfort in a Village Scenic Park: Implications for Rural Revitalization

  4. Xiao, Y., Zhang, T.*, Liu, Z., Fei, F., & Fukuda, H. (2023). Optimizing energy efficiency in HSCW buildings in China through temperature-controlled PCM Trombe wall system. Energy, 278, 128015.

  5. Bao, X., Zhang, T.*, Dewancker, B. J., He, J., & Liu, S. (2023). Exploring the Unit Spatial Layout Preference for Urban Multi-Unit Residential Buildings: A Survey in Beijing, China. Sustainability, 15(15), 12013.

  6. Zhang, P., Zhang, T.*, Fukuda, H., & Ma, M. (2023). Evidence of Multi-Source Data Fusion on the Relationship between the Specific Urban Built Environment and Urban Vitality in Shenzhen. Sustainability, 15(8), 6869.

  7. Yu, H., Zhang, T.*, Fukuda, H., & Ma, X. (2023). The effect of landscape configuration on outdoor thermal environment: A case of urban Plaza in Xi'an, China. Building and Environment, 110027.

  8. Xiao, Y., Zhang, T.*, Liu, Z., Fukuda, H. (2023). Thermal performance study of low-e glass Trombe wall assisted with temperature-controlled ventilation system in Hot-Summer/Cold-Winter Zone of China. Case Studies in Thermal Engineering, 102882.

  9. Hu, Q., Zhang, T.*, Jiao, Z., Duan, Y., Dewancker, B. J., & Gao, W. (2023). How does industrial transformation enhance the development of coastal fishing villages: Lessons learned from different transformation models in Qingdao, China. Ocean & Coastal Management, 235, 106470.

  10. Zhang, T.*, Duan, Y., Jiao, Z., Ye, X., Hu, Q., Fukuda, H., & Gao, W. (2022). Towards Improving Rural Living Environment for Chinese Cold Region Based on Investigation of Thermal Environment and Space Usage Status. Buildings, 12(12), 2139.

  11. Zhang, T.*, Hu, Q., Zhou, D., Gao, W., & Fukuda, H. (2022). Ecological carrying capacity evaluation for villages’ spatial planning in rural revitalization strategy in gully regions of the Loess Plateau (China). Journal of Asian Architecture and Building Engineering, 1-17.

  12. Hu, Q., Zhang, T.*, Jiao, Z., Duan, Y., Dewancker, B. J., & Gao, W. (2022). The impact of fishery industrial transformation on rural revitalization at village level: A case study of a Chinese fishing village. Ocean & Coastal Management, 227, 106277.

  13. Hou, J., Zhang, T.*, Hou, C., & Fukuda, H. (2022). A study on influencing factors of optimum insulation thickness of exterior walls for rural traditional dwellings in northeast of Sichuan hills, China. Case Studies in Construction Materials, 16, e01033.

  14. Liu, Z. A., Hou, J.*, Chen, Y., Liu, Z., Zhang, T.*, Zeng, Q., ... & Jiang, G. (2022). Effectiveness assessment of different kinds/configurations of phase-change materials (PCM) for improving the thermal performance of lightweight building walls in summer and winter. Renewable Energy, 202, 721-735.

  15. Hou, J., Zhang, T.*, Liu, Z. A., Zhang, L., & Fukuda, H. (2022). Application evaluation of passive energy-saving strategies in exterior envelopes for rural traditional dwellings in northeast of Sichuan hills, China. International Journal of Low-Carbon Technologies, 17, 342-355.

  16. Zhu, Y., Zhang, T.*, Ma, Q., & Fukuda, H. (2022). Thermal Performance and Optimizing of Composite Trombe Wall with Temperature-Controlled DC Fan in Winter. Sustainability, 14(5), 3080.

  17. Wang, L., Zhang, T.*, Fukuda, H., & Leng, Y. (2022). Research on the Application of Mobile Robot in Timber Structure Architecture. Sustainability, 14(8), 4681.

  18. Shi, J., Zhang, T.*, Fukuda, H., Zhang, Q., & Bai, L. (2022). Socio-Environmental Responsive Strategy and Sustainable Development of Traditional Tianshui Dwellings. Sustainability, 14(14), 8890.

  19. Wang, L., Naito, T., Leng, Y., Fukuda, H., & Zhang, T.*. (2022). Research on Construction Performance Evaluation of Robot in Wooden Structure Building Method. Buildings, 12(9), 1437.

 

 

获奖

(1/6)第四届中国•湖州全球高层次人才创新创业大赛二等奖. 湖州市委.2021

(1/1)日本学术类高度人才称号.日本文部省.2017

(1/1)日本文部省全额奖学金(国费).日本文部省.2016

 

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