报告题目：Water Sensitive Urban Design for Sustainable Water Resources Management: Challenges in Climate Change Adaptation

报告人：Changhyun JUN 博士， 西交利物浦大学

邀请人：Jongsuk KIM 教授

时间：2018年10月9日（星期二）下午3:00

地点：国家重点实验室学术报告厅（农水楼一楼）

报告人简介：

- Lecturer, Department of Civil Engineering at Xi’an Jiaotong-Liverpool University, China (2017-Present)
- Postdoctoral research fellow, School of Civil and Environmental Engineering at Nanyang Technological University, Singapore (2016-2017)
- Visiting researcher, Department of Civil and Environmental Engineering at Politecnico di Milano, Italy (2015-2016)
- Post-doctoral fellow, Department of Civil and Environmental Engineering at the Hong Kong University of Science and Technology (2014-2015)
- Ph.D. degree, Department of Civil, Environmental and Architectural Engineering from Korea University, Korea (2014)
- Bachelor’s degree, Department of Civil, Environmental and Architectural Engineering from Korea University, Korea (2010)

报告简介：

There has been much speculation with regards to the effect of climate change upon changing patterns of hydro-meteorological hazard. One of the major assertions has been that rainfall intensity will increase, or that extreme events will become more frequent. This prediction has arisen, in part as a result of modelling studies as well as from analysis of rainfall statistics. In the context of climate variation, it is important to develop a strong understanding of current and potential impacts on water-related disasters and water resources that will affect people today and in coming decades and provide showcases and guidelines for designing hydraulic structures, which can enhance resilience and adaptation to climate change against hydrologic extremes. Water Sensitive Urban Design (WSUD) is one of solutions, which could be implemented to assist in dealing with hydrologic uncertainties for the preservation of the water environment and sustainable water management. WSUD involves technologies and approaches that aim to retain water in the urban landscape through stormwater harvesting and fit-for-purpose reuse and infiltration into soils to meet ecological, social and financial objectives. WSUD can also support Climate Sensitive Urban Design (CSUD), which tends towards thermally comfortable and more sustainable urban environments by enhancing positive natural and man-made features through architecture, planning and landscape design. This is an important step forward towards a more integrated approach between meteorology/atmospheric sciences, water resources engineering and urban design. It will help advance our understanding of the fundamental mechanisms and properties of hydrological/atmospheric processes. From the evaluation of risk-based design of hydraulic structures and urban-planning programs under hydrologic uncertainties, we can significantly increase our global visibility of water resources management focusing on climate change impact, mitigation and adaptation strategies against hydrologic extremes.

      欢迎相关专业的教师及研究生参加！