Sodium-ion battery systems, deployed where the grid needs them most.

Proven where the grid is hardest
We deploy sodium-ion storage in the world's most volatile markets, cutting cost per kWh, stabilising peak demand, and turning grid gaps into capacity that ships in weeks, not years.

240 MWh
Deployed capacity across active sites
0%
Cobalt, nickel, or lithium content
3
Markets in
active rollout
<6 wks
From pad to operational system
01
Lower cost per kWh.
No cobalt. No lithium.

02
Model forecast price, load and renewables.
03
Self-leveling pads. Modular install. Operational in weeks
Solar floods the market by day. Demand spikes after sunset. Storage closes the gap.


Self-leveling pads. Containerised battersies. A repeatable kit of parts that ships in weeks, not years.
Deploying now in Adelaide
Scaling next to Melbourne
Expanding to worldwide

"This platform is perfectly aligned with our goals especially in automation and operational clarity."

James Mercer
"This platform is perfectly aligned with our goals especially in automation and operational clarity."

Priya Ramanathan
Frequently asked questions
Why sodium-ion instead of lithium-ion?
Sodium and iron are abundant and unconstrained. The chemistry is thermally stable across a wide operating range, has no cobalt or nickel exposure, and is now manufactured at grid scale by CATL and BYD. For stationary duty cycles, it qualifies on cost, safety, and supply.
How long does a system take to deploy?
No. You evaluate, configure, guide, and adjust. Spinealign holds what your hands would otherwise hold.
Where are you deploying first?
It is built around Schroth and adjacent 3D scoliosis approaches. You bring the plan. The device executes the mechanical parts.
How is dispatch managed?
Yes. Once a patient is configured, the device delivers the session while you set up the next.
Who do you partner with?
It removes the sustained manual force responsible for the wrist strain that ends Schroth careers.

