HOW IT WORKS

Integrating proven industrial technologies to generate industrial heat reliably, flexibly and at low cost.

The NOC Cell generates, stores and discharges industrial heat.

Generates

Electromagnetic induction converts electricity to heat directly at the core of conductive thermal media.

Stores

Advanced thermal media in a packed bed is optimised to store maximum energy at a low cost, with minimum footprint.

Discharges

The packed bed thermal media is an optimal surface for heat exchange to a process gas (air, flue gas, etc.) that is blown through the NOC Cell

ONE TECHNOLOGY, THREE FLEXIBLE SOLUTIONS

Direct electrification

Each NOC Cell performs the core function of converting electricity directly into heat for industrial applications. When the heat is utilized immediatly without further conversion or storage, we define this process as Direct Electrification.

Thermal energy storage

In many cases, storage is a critical capability. The core NOC Cell technology scales to incorporate increasing quantities of thermal media, enabling the storage of heat when electricity is abundant or low-cost. This energy is then readily available for use whenever the process demands it.

Hybrid integration

Both Direct Electrification and Thermal Energy Storage installations are designed for hybrid compatibility with existing thermal sytems, such as natural gas burners. This modular approach ensures a low-risk transition while providing maximum flexibility within your energy portfolio.

THE NOC ADVANTAGE

Scalable and easy to integrate

High energy density keeps the NOC Cell's footprint minimal and allows for seamless on-site integration. Multi-cell storage systems provide 100's of MWh of energy storage

Reliable industrial performance

Delivering 1500°C heat is a feat of engineering and the NOC Cell is built with industry proven materials and components that can withstand these conditions.

Hybrid and flexible operation

Our system can operate fully electric, store heat for later use, or run in hybrid mode alongside existing combustion systems — giving plants flexibility to adapt to grid conditions and energy price signals.

All-in-one solution

Combining heat generation and thermal energy storage in one compact design keeps the system simple and the cost low.

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