Dingkun Yin
Tsinghua University
9 Papers
5 Citations
Dingkun Yin is an academic researcher from Tsinghua University. The author has contributed to research in topics: Green infrastructure & Surface runoff. The author has an hindex of 4, co-authored 9 publications.
Chat about Author
Papers
Sponge city practice in China: a review of construction, assessment, operational and maintenance
Dingkun Yin,Ye Chen,Haifeng Jia,Qi Wang,Zhengxia Chen,Changqing Xu,Qian Li,Wenliang Wang,Ye Yang,Guangtao Fu,Albert S. Chen +10 more
TL;DR: A literature review of sponge city construction (SPCC) process (planning, design and construction) as well as the assessment of SPC, including: operation, maintenance, and effectiveness are presented.
148
Performance assessment of coupled green-grey-blue systems for Sponge City construction.
TL;DR: An integrated assessment framework of coupled green-grey-blue systems on compliance of water quantity and quality control targets in Sponge City construction and the results demonstrate that the performance of Sponge City strategies increases with large scale deployment under smaller rainfall events.
93
Integrated 1D and 2D model for better assessing runoff quantity control of low impact development facilities on community scale.
Dingkun Yin,Barry Evans,Qi Wang,Zhengxia Chen,Haifeng Jia,Albert S. Chen,Guangtao Fu,Shakeel Ahmad,Linyuan Leng +8 more
TL;DR: A modelling framework of integrated one-dimensional and two-dimensional hydrodynamic modelling to evaluate the effectiveness of sponge city construction at community scale and it is found that the MIKE FLOOD model and the integrated model of SWMM and CADDIES 2D can obtain similar simulation results.
91
Environmental and economic benefit comparison between coupled grey-green infrastructure system and traditional grey one through a life cycle perspective
Changqing Xu,Liu Zijing,Zhengxia Chen,Yifei Zhu,Dingkun Yin,Linyuan Leng,Haifeng Jia,Haifeng Jia,Xiang Zhang,Jun Xia,Guangtao Fu +10 more
TL;DR: In this paper, the authors proposed a cost-combined life cycle assessment method to evaluate the environmental and economic benefits of coupled grey and green infrastructure system in a typical residential area in China.
44
Integrating socioecological indexes in multiobjective intelligent optimization of green-grey coupled infrastructures
TL;DR: The socioecological influences of runoff control infrastructure are innovatively included in a uniform evaluation framework with the control functions and capital investments in this study and prove the necessity of considering multiobjective optimization and green-grey couple infrastructures in a Uniform evaluation framework.
35