UPS and Backup power
Plug and Play UPS systems
Plug and Play UPS systems
Plug and Play UPS systems
Sodium-ion batteries are ideal for UPS (Uninterruptible Power Supply) and backup power solutions due to their reliability, cost-effectiveness, and safety. Their stable thermal properties reduce the risk of overheating, ensuring safe operation during critical power outages. Additionally, their long cycle life and ability to perform well across a wide range of temperatures make them highly dependable for delivering consistent, on-demand power during emergencies. These qualities position sodium-ion technology as an efficient and scalable choice for UPS and backup power applications.
Sodium-ion batteries are ideal for UPS (Uninterruptible Power Supply) and backup power solutions due to their reliability, cost-effectiveness, and safety. Their stable thermal properties reduce the risk of overheating, ensuring safe operation during critical power outages. Additionally, their long cycle life and ability to perform well across a wide range of temperatures make them highly dependable for delivering consistent, on-demand power during emergencies. These qualities position sodium-ion technology as an efficient and scalable choice for UPS and backup power applications.
Sodium-ion batteries are ideal for UPS (Uninterruptible Power Supply) and backup power solutions due to their reliability, cost-effectiveness, and safety. Their stable thermal properties reduce the risk of overheating, ensuring safe operation during critical power outages. Additionally, their long cycle life and ability to perform well across a wide range of temperatures make them highly dependable for delivering consistent, on-demand power during emergencies. These qualities position sodium-ion technology as an efficient and scalable choice for UPS and backup power applications.
Lightweight EV
Hyperfast charging. Everywhere.
Hyperfast charging. Everywhere.
Hyperfast charging. Everywhere.
Sodium-ion batteries offer a cost-effective, safe, and sustainable solution for LEVs. They use abundant materials, reducing costs, and their lower risk of thermal runaway enhances safety, particularly in urban areas. These batteries are environmentally friendly, perform reliably across temperatures, have a long cycle life for lower maintenance, and support fast charging for quick turnarounds in urban settings.
Sodium-ion batteries offer a cost-effective, safe, and sustainable solution for LEVs. They use abundant materials, reducing costs, and their lower risk of thermal runaway enhances safety, particularly in urban areas. These batteries are environmentally friendly, perform reliably across temperatures, have a long cycle life for lower maintenance, and support fast charging for quick turnarounds in urban settings.
Sodium-ion batteries offer a cost-effective, safe, and sustainable solution for LEVs. They use abundant materials, reducing costs, and their lower risk of thermal runaway enhances safety, particularly in urban areas. These batteries are environmentally friendly, perform reliably across temperatures, have a long cycle life for lower maintenance, and support fast charging for quick turnarounds in urban settings.
EV Charging Infrastructure
Ultra-fast DC - DC charging.
Ultra-fast DC - DC charging.
Ultra-fast DC - DC charging.
Sodium-ion technology offers a cost-effective, high-performance, and environmentally friendly solution, making it an excellent candidate for integration into EV charging infrastructure, particularly in fast DC-to-DC charging and EV-charging energy storage applications.
Sodium-ion technology offers a cost-effective, high-performance, and environmentally friendly solution, making it an excellent candidate for integration into EV charging infrastructure, particularly in fast DC-to-DC charging and EV-charging energy storage applications.
Sodium-ion technology offers a cost-effective, high-performance, and environmentally friendly solution, making it an excellent candidate for integration into EV charging infrastructure, particularly in fast DC-to-DC charging and EV-charging energy storage applications.
Grid
Energy stored for future use.
Energy stored for future use.
Energy stored for future use.
Sodium-ion batteries are poised to play a significant role in grid energy storage due to their cost-effectiveness, as sodium is abundant and cheaper than lithium. They offer high energy density and long cycle life, making them suitable for large-scale, long-term energy storage. Their enhanced thermal stability and safety compared to lithium-ion technology ensure reliable performance in critical grid applications. Sodium-ion batteries also align with sustainability goals, as they are more environmentally friendly. These advantages make them a strong contender for supporting the growing demand for grid-scale renewable energy integration and stabilization.
Sodium-ion batteries are poised to play a significant role in grid energy storage due to their cost-effectiveness, as sodium is abundant and cheaper than lithium. They offer high energy density and long cycle life, making them suitable for large-scale, long-term energy storage. Their enhanced thermal stability and safety compared to lithium-ion technology ensure reliable performance in critical grid applications. Sodium-ion batteries also align with sustainability goals, as they are more environmentally friendly. These advantages make them a strong contender for supporting the growing demand for grid-scale renewable energy integration and stabilization.
Sodium-ion batteries are poised to play a significant role in grid energy storage due to their cost-effectiveness, as sodium is abundant and cheaper than lithium. They offer high energy density and long cycle life, making them suitable for large-scale, long-term energy storage. Their enhanced thermal stability and safety compared to lithium-ion technology ensure reliable performance in critical grid applications. Sodium-ion batteries also align with sustainability goals, as they are more environmentally friendly. These advantages make them a strong contender for supporting the growing demand for grid-scale renewable energy integration and stabilization.
Construction
Pure power. No emissions.
Pure power. No emissions.
Pure power. No emissions.
To reduce emissions, transitioning to electric construction methods is essential. We support this transformation in two key ways: by providing battery solutions to power electric machinery and by offering specialized battery packs for recharging equipment on-site.
To reduce emissions, transitioning to electric construction methods is essential. We support this transformation in two key ways: by providing battery solutions to power electric machinery and by offering specialized battery packs for recharging equipment on-site.
To reduce emissions, transitioning to electric construction methods is essential. We support this transformation in two key ways: by providing battery solutions to power electric machinery and by offering specialized battery packs for recharging equipment on-site.