Utility-Scale Storage.
Zero Compromise Chemistry.
Built for Decade-Long Deployments.
Trydan Tech's Na+ Container System is a turnkey 20-foot containerized BESS engineered for grid operators, industrial facilities, and infrastructure developers who demand the highest cycle life available. Built on Trydan Tech's patented sodium-ion technology with reduced thermal runaway pathway, no critical minerals, and no replacement cycles for over a decade, it delivers 2.3 MWh of reliable energy storage where failure is not an option.
Containerized sodium-ion energy system engineered for utility-scale deployment with decade-long service life and no critical mineral dependency.
Designed for grid operators and infrastructure developers looking for utility-scale energy storage that delivers reliable performance, long service life, and a lower total cost of ownership over the lifetime of the system.
The Na+ Container delivers 2.3 MWh and 1.25 MW from a single 20-foot unit. Straightforward to deploy, simple to integrate, and ready to scale as your project grows.
Over a 20-year project horizon, this high cycle life translates to significantly fewer replacement cycles and lower total capital expenditure.
NFPP's strong P–O bonds suppress oxygen release under abuse conditions, removing the thermal runaway pathway present in conventional lithium chemistries. This simplifies site permitting and reduces system-level safety infrastructure requirements.
The Na+ Container is built on sodium, iron, and phosphorus — among the most abundant and geographically distributed materials on earth, offering stable long-term pricing and no exposure to supply chain disruption.
NFPP chemistry performs reliably from -40°C to 60°C on the discharge side, making the Na+ Container well suited for outdoor deployments across a wide range of climates without excessive thermal management overhead.
With a PCS rated at 99% maximum efficiency and system-level round-trip efficiency of 98% or above, the Na+ Container keeps energy losses low across every cycle, contributing to a stronger return on investment over the life of the system.
Designed for large-scale deployments where cycle life, safety, and total cost of ownership matter more than upfront price.
The Na+ Container integrates directly into utility and commercial grid infrastructure as a standalone BESS. With 2.3 MWh of usable capacity and 10,000+ cycle life, it supports peak shaving, frequency regulation, and renewable energy firming over a multi-decade project horizon.
Manufacturing facilities, data centers, ports, and mining operations rely on uninterrupted power where grid instability is not acceptable. The Na+ Container provides large-scale backup and load management with the operational temperature range and safety profile that demanding industrial sites require.
Pairing the Na+ Container with solar or wind generation smooths intermittency and maximizes self-consumption. The 0.5C charge rate, wide temperature tolerance, and long service life make it a practical long-term partner for renewable energy projects of all scales.