Integrated energy infrastructure · 2026

Generation, storage and grid intelligence designed as one responsive system.

ENERGYTHAT MOVESCITIES.

84.7GW ACTIVE
01GenerateSolar · wind · hybrid
02StoreBattery · thermal
03DistributeAdaptive grid

01 / One connected field

Energy works harder when every asset can see the whole system.

VOLTERRA connects generation, storage, distribution and demand into one measurable operating layer.

Real-time controlPredictive dispatchResilient infrastructure

02 / Energy journey

From source
to skyline.

Scroll through a complete energy loop. Each layer changes the system that follows.

01

GENERATION

Capture every available source.

Hybrid solar and wind systems balance local conditions instead of depending on a single profile.

02

STORAGE

Keep surplus in the system.

Battery and thermal storage absorb variability, protect peak demand and increase asset value.

03

GRID

Route power where it matters.

Adaptive controls respond to demand, congestion and asset health before instability spreads.

04

CITY

Turn infrastructure into daily capacity.

Reliable energy supports transport, industry, buildings and public systems without wasted reserve.

03 / Operating layer

See the grid.
Shape the outcome.

One interface connects assets, forecasts, dispatch and response.

VOLTERRA / GRID OS LIVE
ACTIVE POWER84.7 GW
06:0010:0014:0018:0022:00
Dispatch recommendationStore northern surplus

Shift 4.2 GW into battery clusters before the evening demand ramp.

04 / Platforms

One system.
Four operating scales.

Infrastructure engineered around the conditions, risks and decisions of each environment.

01Utility-scale generation

FIELD / 01

Hybrid solar, wind and storage parks designed for grid stability from day one.

Typical scale
250 MW — 2.4 GW
Core layer
Hybrid dispatch
02Industrial resilience

FORGE / 02

On-site generation and microgrids that protect production from volatility and outages.

Typical scale
20 — 180 MW
Core layer
Microgrid control
03Urban electrification

CITY / 03

District energy, charging and building systems coordinated around real demand.

Typical scale
40k — 1.2m users
Core layer
Demand orchestration
04Remote infrastructure

EDGE / 04

Autonomous systems for isolated operations where reliability cannot depend on a distant grid.

Typical scale
500 kW — 25 MW
Core layer
Autonomous operation

05 / Model the impact

Change the capacity.
See what becomes possible.

100 MW1.2 GW
Annual output1.31 TWh
Homes supplied262K
CO₂ avoided524K t
Peak support126 MW
LIVE
MODEL

06 / Proven in operation

“The system stopped treating storage as backup and started using it as an active grid asset.”
Elena MarovicDirector of Energy Infrastructure
0% lower peak cost
0% higher renewable use
0min response time

07 / Build the next system

Energy infrastructure should move as one.

Share the site, load profile or operating challenge. Our engineering team will map the most useful first step.

Engineering response within 2 business daysEurope · Central Asia · MENA