Energia
Huawei Digital Power Hosts the Grid Forming & ESS Safety Forum for Innovative Business Strategies and Safety Ecosystem
Adhering to high safety standards is key to maintaining grid stability. Huawei Digital Power proposes four safety standards: non-flammable, non-explosive, non-spreading, and non-harmful. The cell-to-grid safety design improves system reliability. Huawei will continue to innovate and collaborate with customers, partners, and industry organizations to promote the adoption of safety standards and drive business model innovation, ensuring that all parties in the industry chain can benefit from technological advancements and achieve a sustainable future.
Robert Liew , APAC Research Director at Wood Mackenzie, and Patrick Zank , Business Development Manager at VDE, shared insights about how grid-forming technology can support renewable energy investments and ideas about how unified standards and market trust are essential to promoting its large-scale applications.
Vannsith Ith, Director of the Power Management Division at SchneiTec, and Billy Qiu , Technical Manager of Smart Energy at TÜV SÜD, shared details about the first utility-scale ESS project in Cambodia . TÜV SÜD conducted an empirical test on the grid-forming capability of Huawei's grid-forming PV+ESS system in Cambodia , in accordance with PPP 58232. The test results provide a solid foundation for building a stable and reliable smart grid, demonstrating the development of grid-forming projects in Southeast Asia .
Chen Danqing, CTO of the Grid-Forming ESS Business at Huawei Digital Power, stated that there are four major technical challenges to the large-scale commercial use of grid-forming technology, including multi-device parallel operation stability, wideband oscillation damping, strong overload support, and device safety and reliability.
With extensive experience in the PV and ESS fields, particularly in grid-friendly and grid-forming technologies, Huawei Digital Power proposes the Smart String Grid-Forming ESS technology system. The technology system encompasses grid-forming capabilities across the entire power generation, transmission, distribution, and consumption process, redefining the core standards of grid-forming capabilities. Specifically, grid-forming ESS should possess grid-forming capabilities for all performance levels, under all grid conditions, and throughout the full lifecycle. It can provide deterministic and stable support for power systems, meeting the requirements of various business models in the future. Huawei's Smart String Grid-Forming ESS has undergone rigorous empirical tests in projects in Qinghai and Xizang, and has been successfully applied in GW-level projects.
Chen Weipeng, Regional Business President (Non-Life Insurance) of Munich Re Group, shared his insights on the theme of safeguarding ESS projects. Chen Xiong , General Manager of Electric Power and Electronic Products Service, TÜV Rheinland China pointed out that true system safety should encompass the entire lifecycle of the ESS.
Steve Zheng , President of Grid-Forming ESS Business, Huawei Digital Power, pointed out that ESSs have three typical characteristics: high density, high voltage, and high current. During the lifecycle, the electrochemical inconsistency, grid uncertainty, and insufficient digital management capabilities of ESSs may cause great safety risks.
To address these issues, Huawei Digital Power launches an innovative safety system that integrates the "Panshi" battery pack, two-stage string architecture, and smart health diagnosis to ensure the ESS's safety throughout its lifecycle.
Together with the international authoritative organization DNV, Huawei Digital Power successfully conducted an extreme ignition test on the Smart String Grid-Forming ESS, fully verifying its safety protection capability in extreme ignition scenarios. Additionally, during the forum, the nail penetration, water immersion, and thermal runaway tests were demonstrated at the Huawei Dongguan Grid-Forming ESS Comprehensive Lab. The test results effectively verified the safety performance of the system under the four safety standards of non-flammable, non-explosive, non-spreading, and non-harmful, as well as the three basic safety standards of grid-friendly, load-friendly, and environment-friendly. Huawei Digital Power will continue to provide PV+ESS solutions and work with the industry chain to achieve a sustainable and green future.
Huawei Digital Power, along with customers, partners, and organizations, launched the ESS Safety Initiative. The initiative aims to improve the ESS-dedicated fire suppression specifications, promote the global promotion and continuous iteration of ESS safety levels, establish ESS safety capabilities that can be visualized and managed throughout the lifecycle, and establish an ESS project risk assessment system throughout the process, thereby safeguarding the future of energy, building a safety foundation, and advancing ESS safety to new heights together.
Photo - https://mma.prnewswire.com/media/2716334/Huawei_Digital_Power_Hosts_Grid_Forming___ESS_Safety_Forum.jpg
Photo - https://mma.prnewswire.com/media/2716335/Huawei_Digital_Power_Hosts_Grid_Forming___ESS_Safety_Forum_1.jpg
Photo - https://mma.prnewswire.com/media/2716336/Huawei_Digital_Power_Hosts_Grid_Forming___ESS_Safety_Forum_2.jpg
View original content:https://www.prnewswire.co.uk/news-releases/huawei-digital-power-hosts-the-grid-forming--ess-safety-forum-for-innovative-business-strategies-and-safety-ecosystem-302488034.html