THERMAL ENERGY STORAGE
Leading Thermal Disruption in Energy
Industrial Heat & Power Delivered
Engineered for Industry. Designed for Impact.
Our Thermal Energy Storage (TES) solution is designed to unlock efficiency, sustainability, and cost advantages across every level of industrial operation.
By addressing the unique needs of key stakeholders, from plant managers to sustainability officers, it ensures long-term value, resilience, and competitive advantage in an evolving energy landscape.
RELIABILITY
OPTIMIZATION
COST & ROI
ESG & CO₂
COMPETITIVENESS
Reliability
Operational Reliability:
Keeps production running 24/7 with stable electricity and high-temperature heat (up to 600°C).
Seamless Integration: Modular design fits into existing industrial processes without disruption.
Proven in the Field: Achieved >95% uptime in real-world industrial operations.
Optimization
Capture cheap solar or off-peak power and use it during expensive peak hours.
Load Flexibility:
Balances demand and supports grid stability.
Fossil-Free Operations:
Cuts reliance on fossil fuels, while ensuring energy is always available.
Cost & ROI
Cost Savings:
Reduce energy costs by up to 150% compared to fossil fuel–based heat.
Long-Term ROI:
30+ year lifespan, no expensive battery replacements.
Price Stability:
Protects against volatile gas and electricity markets.
ESG & CO₂
CO₂ Reduction at Scale:
Enables deep decarbonization by replacing fossil fuels in power and heat.
ESG & Net-Zero Compliance:
Supports corporate sustainability reporting and EU carbon-reduction targets.
A Strategic Advantage:
Built with recyclable materials for a low-impact lifecycle.
Competitiveness
A Strategic Advantage:
Positions your plant at the forefront of clean, competitive industry.
Global Recognition:
Our TES Solution has been awarded the highest EU evaluation score Category A – Excellent
Future-Proof Investment:
Scalable technology ready for industrial clusters, cities, or entire grids.
From Heat-Only to CHP
One Solution, Uninterrupted Energy.
A breakthrough in long-duration thermal energy storage technology designed to unlock the full potential of renewable energy, available anytime, anywhere, 24/7.
Delivering both combined heat and power or heat-only applications, it provides industries with a flexible, high-efficiency solution that replaces fossil fuels with stored renewable energy.
By addressing the two greatest challenges of clean power, intermittency and cost, it ensures stable, affordable, and sustainable energy on demand.
How it works
Charged
Charged with electricity from renewable sources such as Solar PV and wind.
Stored
Energy is stored as heat in a recycled aluminum alloy, as a phase change material at 600° Celsius.
Dispatched
Charged with electricity from renewable Stored heat is dispatched to a Stirling engine on demand, generating electricity & low-temperature heat (55-65⁰ Celsius) or high-temperature heat only (up to 500⁰ Celsius)
Available on Demand
Clean power available on demand at all hours of the day. Emission free and at a significantly lower cost than Li-ion batteries and fossil alternatives.
Key features
Technology Type
Long-Duration Thermal Energy Storage (TES) using advanced phase-change materials (PCM). Stores renewable electricity as high-temperature heat (up to 600°C) and delivers both electricity and heat (or heat only) on demand.
Scalability
Modular by design. From powering a single commercial facility to supplying energy at utility scale. Can be integrated into businesses, industrial plants, or national grids.
Lifespan
Built to last with fully recyclable materials. Our TES solution maintains performance for 30+ years, making it a future-proof investment.
Low Maintenance
With no complex electrochemistry, the system requires minimal upkeep. Designed for reliability, it has demonstrated >95% availability in real-world projects validated by independent assessors.
Innovation Engineered for Every Industry
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Manufacturing
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Processing
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Laundries
Case studies
ELYSEE
CHP Operation
Delivering electricity and heat at 50-60°C
- 52% – annual cost reduction
- 82% – annual emissions reduction
- Payback in 4.6 years
WEE BEE
CHP Operation
Delivering electricity and heat at 50-60°C
- 47% – annual cost reduction
- 73% – annual emissions reduction
- Payback in 5.7 years
Greek Brewery
Heat-only Operation
Delivering steam at 280-300°C
- 34% – annual cost reduction
- 86% – annual emissions reduction
- Payback in 6.3 years
ZAMBIAN MANUFACTURING INDUSTRY
Heat-only Operation
Delivering steam at 150-180°C
- 40% – annual cost reduction
- 87% – annual emissions reduction
- Payback in 6 years
Regions of Development
Europe
Elysée Irrigation Ltd
3 months of successful operation
Greece
Ready for Deployment
Middle East
MASDAR City UAE
20 months of successful operation
NOOR 1 Dubai
18 months of successful operation
Africa
WeBee South Africa
12 months of successful operation
Recognized and supported by Europe’s top funding programs, our journey is fueled by innovation and trust.
tRUSTED BY
EnergyIntel’s technology is a powerful illustration of why thermal energy storage, and long duration energy storage is essential to the energy transition. Visiting their facilities and seeing the technology in operation reinforced how solutions like theirs can respond to real-world energy needs, from rising demand to resilience for industries, data centres, and island communities. EnergyIntel’ system-focused innovation outlines how the LDES Council’s vision of scaling LDES solutions around the world becomes a reality, and we are proud to have them as part of our global community working toward reliable, flexible, and sustainable energy systems.
Julia Souder
CEO – LDES Council
EnergyIntel’s TES technology stands as an auspicious and instrumental inclusion within the operational framework of the Masdar Institute Solar Platform in Masdar City. Its operational aptitude, though characterized by the minor deviation in energy output, remains a meritorious embodiment of its declared promise. We proffer, without reservation, our endorsement of this technology.
Dr. Nicolas Calvet
Founder & Chair of the Khalifa University’s Masdar Institute Solar Platform
EnergyIntel’s TES technology stands as an auspicious and instrumental inclusion within the operational framework of the Masdar Institute Solar Platform in Masdar City. Its operational aptitude, though characterized by the minor deviation in energy output, remains a meritorious embodiment of its declared promise. We proffer, without reservation, our endorsement of this technology.
Dr. Nicolas Calvet
Founder & Chair of the Khalifa University’s Masdar Institute Solar Platform
Technical Information
FAQ’s
What is Thermal Energy Storage (TES)?
Thermal Energy Storage (TES) is a technology that stores energy in the form of heat, which can be released when needed. It enables decoupling of energy supply from demand, providing flexibility, efficiency, and cost savings. Thermal Energy Storage stores thermal energy up to 600°C, making it suitable for industrial heat applications, district heating, and integration with renewable energy.
Why is TES important for the energy transition?
TES bridges the gap between intermittent renewable energy generation (solar, wind) and constant industrial demand. It helps reduce reliance on fossil fuels, lowers CO₂ emissions, and provides to industrial processes. TES enables industries to replace fossil-fuel boilers with clean electricity and thermal energy, accelerating decarbonization.
What temperature range does EnergyIntel's Thermal Energy Storage operate in?
EnergyIntel’s TES operates efficiently up to , covering the , which represents .
Can EnergyIntels TES solution replace fossil-fuel boilers?
How is TES different from batteries?
What is the storage capacity of EnergyIntel's TES?
How long can EnergyIntel's Thermal Energy Storage store heat?
Can EnergyIntel's Thermal Energy Storage integrate with renewable energy sources?
Is EnergyIntel's TES safe and reliable?
What are the environmental benefits?
How scalable is EnergyIntel's Thermal Energy Storage?
What is the size of EnergyIntel's TES?
What is the efficiency of EnergyIntel's TES?
Be Part of the Energy Revolution
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