Graphene Supercapacitor Modules
Graphene supercapacitors represent a cutting-edge energy storage solution, utilizing graphene nanotechnology to achieve ultra-fast charging and discharging, long lifespan, and exceptional efficiency. These modules are available in Single-cell, Multi-cell, and Advanced BMS-integrated (Battery Management System) configurations.
Key Features: - Ultra-fast charging and discharging with no performance degradation over time - perfect for instantaneous energy release. - Over one million charge and discharge cycles, ensuring unmatched durability compared to traditional battery solutions. - Minimal energy loss thanks to ultra-low internal resistance. - Stable performance in extreme environments, including high temperatures, high-vibration conditions, and demanding industrial settings. - Seamless integration with battery storage systems to balance high-power discharge with long-term energy storage
Lithium and Sodium Battery Modules
Our energy storage solutions include lithium-iron-phosphate (LFP) and sodium-ion (Na-Ion) battery modules, each offering distinct advantages for various applications.
- Lithium (LFP) Batteries: High energy density, optimized safety, and extended life cycle - ideal for EVs, renewable energy storage, and UPS applications.- Sodium (Na-Ion) Batteries: A cost-effective alternative with stable performance in low temperatures, free from lithium and cobalt dependency - optimized for grid storage and industrial applications. - Continuous and stable power supply, suitable for systems requiring long-duration energy availability. - Compatibility with graphene supercapacitors to enhance performance and improve energy efficiency. - Advanced battery management systems (BMS) for enhanced safety and longevity.
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Energy Storage Systems (ESS)
Energy Storage Systems (ESS) focus on smart energy management at grid and industrial scale. By integrating advanced technologies, these systems deliver the most efficient solution for sustainable energy supply.
The Key Role of Supercapacitors in ESS: - Increased efficiency and reduced energy loss, thanks to rapid energy storage and recovery capabilities. - Instantaneous power delivery during peak demand, preventing voltage drops and instability. - Reduced wear on lithium and sodium batteries, significantly extending their lifespan by balancing electrical loads and minimizing deep discharge cycles. - Enhanced reliability for backup power systems and renewable energy grids, such as solar and wind power stations
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Hybrid Modules
Hybrid modules combine graphene supercapacitors with lithium and sodium batteries, offering the best attributes of both technologies. This creates an optimal energy storage solution for demanding applications.
Key Features: - Faster charge and discharge cycles, optimizing energy usage and efficiency. - Reduced stress on lithium and sodium batteries, significantly extending battery lifespan and minimizing maintenance costs. Ideal for: Emergency backup systems, Electric vehicles, Industrial machinery, and Renewable energy storage. - Perfect balance between instantaneous power delivery and long-duration energy storage. - Enhanced grid stability and reduced voltage fluctuations, ensuring system reliability and high performance.
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