Zhejiang, renowned not only as one of the cradles of Chinese civilization with its rich history and cultural heritage but also for its thriving small commodity market, has garnered widespread acclaim both domestically and internationally. This region serves as a vibrant stage for commodity trading and a cradle of industrial chain collaboration and innovation. From a dazzling array of daily necessities to the forefront of fashion trends, from the intricate craftsmanship of precision components to the cutting-edge exploration of high-tech products, Zhejiang's light industry is beloved by consumers worldwide for its product diversity, high quality, and rapid response to market demands. However, with the accelerated industrialization and urbanization, Zhejiang's light industry is confronted with the dual pressures of soaring electricity demand and the transformation of energy structures. The continuous rise in electricity tariffs and the heightened requirements for power supply stability have made it imperative for Zhejiang's light industry to seek an economical, efficient, and environmentally friendly energy solution.

As a leading provider of ESS solutions, TWS Anhui leverages its keen market insight to continuously explore and analyze market dynamics. In response to the current imbalance between power supply and demand in Zhejiang and the surge in energy storage needs, TWS Anhui has collaborated with Zhejiang's light industrial enterprises to tailor efficient and sustainable energy storage solutions for them.

Boasting innovative technological advantages and extensive project operation experience in the field of energy storage, TWS Anhui offers customers a one-stop industrial and commercial energy storage solution and service, encompassing preliminary scheme design, equipment selection, installation and debugging, as well as post-operation and maintenance. For this project, the project team conducted preliminary site inspections and proposed a customized project plan comprising four subsystems based on actual conditions. Each subsystem consists of energy storage cabinets, AC grid-connected cabinets, and transformers, with varying numbers of energy storage cabinets configured according to actual needs: one subsystem with 5 MU-P cabinets, two subsystems with 4 MU-P cabinets each, and one subsystem with 3 MU-P cabinets. This differentiated configuration of the distributed energy storage system not only optimizes energy supply and utilization but also significantly enhances system flexibility and response speed, thereby improving the reliability and efficiency of the energy system. This energy storage project boasts promising economic prospects, adopting a two-charge and two-discharge operation mode that leverages Zhejiang's peak-valley electricity tariff to achieve approximately RMB 5,000 in daily peak-valley arbitrage revenue. With an estimated investment payback period of three years, the enterprise can quickly recoup costs and enjoy sustained profitability.

The implementation of this energy storage project not only enables the light industrial enterprise to significantly reduce operating costs and enhance market competitiveness, injecting robust momentum into its green and sustainable development strategies, but also marks a promising start and crucial initiative for TWS Anhui to collaborate with Zhejiang's light industrial enterprises in empowering key industries with green energy and promoting green, sustainable development and industrial upgrading. Looking ahead, TWS Anhui will continue to uphold the concept of open cooperation, collaborate with enterprises across various industries, explore diverse applications of energy storage technologies, provide green energy guarantees for high-quality industrial development, and jointly advance the construction of a clean, low-carbon, safe, and efficient global energy system.