标杆案例 | 探秘海博思创构网型储能电站如何实现1+1＞2

Core Viewpoint - The article highlights the successful operation of a 100MW/200MWh shared energy storage project in Malipo County, Yunnan, utilizing innovative hybrid storage technology to address local power supply and demand challenges, thereby enhancing the stability and resilience of the power grid [1][2]. Group 1: Project Overview - The shared energy storage project employs Haibo Sichuang's innovative grid-structured storage technology combined with a "lithium iron phosphate + all-vanadium flow" hybrid technology route, providing essential support for the construction of an integrated new power system [1]. - The project features the Haibo Sichuang HyperBlock series liquid-cooled storage system, which is characterized by safety, low Levelized Cost of Storage (LCOS), high integration, long lifespan, and strong environmental adaptability [2]. Group 2: Technical Innovations - The hybrid storage system integrates lithium battery foundations with flow battery enhancements, creating a multi-technology collaborative system that optimizes energy storage unit tasks in real-time, extending system cycle life and reducing cost per kilowatt-hour [2]. - The grid-structured storage technology allows for precise active regulation of grid fluctuations, enhancing grid resilience and stability through features like real-time voltage adjustment and dynamic frequency support [3]. Group 3: Operational Excellence - Haibo Sichuang's comprehensive one-stop solution capability ensures efficient project delivery through multi-dimensional management, including progress control, quality supervision, and safety assurance [5]. - The company has established a full lifecycle service system, with a dedicated technical team customizing product selection and technical routes based on in-depth discussions during the project preparation phase [6]. Group 4: Future Outlook - Haibo Sichuang aims to drive the reconstruction of multi-scenario energy ecosystems through "storage + X" initiatives, continuing to deepen technological innovation and model exploration to contribute to the construction of a new power system and the achievement of carbon neutrality goals [6].