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Peak shaving
Reduce your demand charges and save costs by shaving the peaks of your power consumption.
As electric vehicle adoption surges, power demand rises accordingly. Upgrading outdated grid infrastructure can be both expensive and time-consuming. Battery Energy Storage Systems (BESS) offer a solution by enabling fast charging stations in areas with weak grids to accommodate this growing demand.
The SWORD battery energy storage system is modular and scalable, allowing you to adjust to your needs while keeping costs low. With advanced features such as time shifting and peak shaving, you can store energy during off-peak hours to cut costs and reduce demand charges. Our system is fully integrated to maximize the efficiency of both new and existing solar panels, supporting PV self-consumption. Designed with safety in mind, it features a 48-volt internal power architecture, making maintenance straightforward and requiring no high-voltage training.
Arbitrage
Power your loads with the battery during high electricity rates and recharge it when rates are low.
PV Self-Consumption
Optimize your solar investment and decrease your reliance on the grid with intelligent power management. This allows you to store excess energy in batteries for use during peak hours.
Balance Services / Flexibility Markets
Maximize the value of your battery energy storage system by monetizing its flexibility. Offer available capacity for ancillary services such as Frequency Response Reserve (FFR), Frequency Containment Reserve (FCR), standard ramping Frequency Control Ancillary Services (FCAS), and more.
DC or AC Coupled Solar
The Pixii BESS features integrated MPPT functionality, making it a comprehensive DC-coupled hybrid system. Our technology is also compatible with most grid-tied PV inverters, whether operating in on-grid or off-grid mode, ensuring optimal performance and value for existing solar installations.
Local Power Boost
Enhance the maximum available power capacity by integrating smart energy storage systems alongside the grid. In areas experiencing temporary overloads, these systems can manage the excess demand, helping you avoid costly grid upgrades.