中国工程科学2025,Vol.27Issue(4):43-54,12.DOI:10.15302/J-SSCAE-2025.03.017
统筹区域与城市的"精准适配"安全韧性规划方法探索
A Precision Adaptation Resilience-Planning Methodology that Integrates Regions and Cities
摘要
Abstract
Safety resilience is the premise of urban construction,and creating a safety resilience planning methodology with multi-scale linkage is of great scientific significance for enhancing the overall resilience of cities and promoting high-quality urban development.This study is based on national and regional perspectives,focusing on the adapting mechanism between urban space development and safety risks.It analyzes the characteristics of safety risks at different spatial levels and establishes a safety resilience planning framework that integrates regions and cities as well as a precise adaptation resilience-planning technology system.Additionally,three key technologies are explored,including accurate analysis of the safety resilience background,generation of resilience planning tailored to local conditions,and dynamic assessment of intelligent responses.Five first-class and 18 second-class national safety resilience construction mode zones are also established,along with a density-scale dual-control index system and key thresholds tailored to different regions.This method has been applied in planning practices such as the Beijing-Tianjin-Hebei regional planning and the reconstruction of Zhouqu(a city in Gansu Province)after a massive mudslide,providing scientific solutions for preventing safety risks in urban construction from the source and enhancing the overall resilience of cities.关键词
精准适配/灾害链/安全韧性要素/韧性空间/多尺度联动Key words
precise adaptation/hazard chain/safety resilience elements/resilient space/multi-scale linkage分类
建筑与水利引用本文复制引用
王凯,徐辉,贾鹏飞,付凯,李长风,周亚杰,陈志芬,高均海..统筹区域与城市的"精准适配"安全韧性规划方法探索[J].中国工程科学,2025,27(4):43-54,12.基金项目
中国工程院咨询项目"城市安全面临的挑战及对策"(2022-JB-02) (2022-JB-02)
"十四五"国家重点研发计划项目(2022YFC3800105) Chinese Academy of Engineering project"Challenges and Countermeasures for Urban Safety"(2022-JB-02) (2022YFC3800105)
"14th Five-Year Plan"Research supported by the National Key Research and Development Program of China(2022YFC3800105) (2022YFC3800105)
