走进2025光辉大赛：奉节菜籽坝抽水蓄能电站的科技破局之旅

Core Insights - The Fengjie Caizhiba Pumped Storage Power Station is a groundbreaking clean energy project in Chongqing, China, representing the first large-scale pumped storage project in a complex karst region and the first fully self-designed project by the Three Gorges Group [1][9] - The project has been recognized in the 2025 Infrastructure Digitalization Glorious Awards held in Amsterdam, highlighting its innovative approach in the clean energy sector [1] Group 1: Challenges and Technological Responses - The geological conditions in Fengjie, characterized by caves, fissures, and underground rivers, pose significant challenges for the construction of the power station, including difficulties in seepage prevention and potential ecological impacts [3] - Engineers from Shanghai Survey and Design Institute are leveraging technology to navigate these challenges, initiating a technological offensive to address the complexities of the karst landscape [3] Group 2: Data Integration and Collaborative Design - The project team faced limitations with traditional design workflows, including data fragmentation and high iteration costs, prompting the adoption of Bentley's technology for enhanced data integration and customized solutions [5] - The integration of OpenRoads and OpenBuildings Designer allows for seamless compatibility across various professional data, meeting the integrated design needs of the pumped storage station [5] Group 3: Geological Insights and Safety Design - Advanced technologies, such as iTwin Capture, have been utilized to create high-precision geological models, which are essential for safe design and risk visualization [6] - The project successfully constructed a 3D karst geological model that identifies the spatial distribution of geological features, aiding in the prediction of potential leakage paths and high-risk areas [6] Group 4: Digital Twin Technology - Digital twin technology plays a crucial role in the construction of the power station, enabling the integration of all professional models into a unified platform for dynamic data correlation and operational simulations [7] - The use of digital twin technology has optimized excavation volumes by 120,000 cubic meters, shortened construction time by 42 days, and reduced carbon emissions by 8,960 tons, supporting the region's clean energy transition [7] Group 5: Empowering Digital Components - A comprehensive digital component system has been established, including a parameterized equipment library and a standardized component library, achieving an 85% reuse rate in design and significantly reducing modeling workload [8] - The standardized product library developed from this project has been applied in five similar projects, achieving a 75% resource reuse rate, facilitating rapid construction of pumped storage power stations [8] Group 6: Conclusion and Future Outlook - The successful realization of the Fengjie Caizhiba Pumped Storage Power Station marks a significant technological breakthrough in constructing pumped storage facilities in karst regions, serving as a major demonstration for the development of clean energy [9] - The project exemplifies the power of technology in advancing clean energy initiatives, paving the way for a greener and more sustainable energy future [9]