The Hidden Cost of Wasted Energy
ENERGY LOST
£4.2bn
Renewable energy worth billions is discarded annually due to limited storage capacity.
EMISSONS IMPACT
25%
High-temperature industrial and power systems drive more than a quarter of annual carbon emissions.
Maximize Generation. Activate Demand.
We convert surplus renewable electricity into ultra-high-temperature, low-carbon heat for industry, reducing energy waste. Our compact, modular technology offers a scalable path to decarbonisation.
WHY NEXERGY?
Ultra-High Temperature Performance
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Most thermal energy storage systems operate below 200°C, limiting their suitability for high-temperature industrial processes.
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Applications such as distillation, steam generation, and advanced materials production require significantly higher heat levels.
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Our heating elements are engineered to operate at temperatures exceeding 1200°C.
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The system delivers extremely high heat output within compact configurations and at high energy densities.
WHY NEXERGY?
Reduced Carbon Emissions
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Industrial processes requiring heat above 100°C are largely dependent on fossil fuels.
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These processes contribute significantly to global CO₂ emissions.
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Our system safely stores heat up to 1200°C with less than 1% thermal loss per day.
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It converts renewable electricity into reliable, on-demand high-temperature heat, reducing energy waste and significantly lowering overall carbon impact.
WHY NEXERGY?
Ease of Installation
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Installation costs can be reduced by up to 60% due to the system’s highly compact design.
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It is among the most space-efficient solutions available in the market.
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NEXERGY manufactures its insulation and heat recovery architecture in controlled factory settings.
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The system integrates smoothly with existing infrastructure, eliminating the need for costly on-site construction.
WHY NEXERGY?
Faster Charging, Reduced Operating Costs
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NEXERGY uses high power density heating elements to achieve significantly faster charging than conventional systems.
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Faster charging provides a competitive advantage in markets with spot electricity pricing.
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The system captures more energy during periods of low or negative electricity prices.
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Since fuel costs dominate long-term operating expenses, this results in substantial and sustained cost savings.
FEATURED CASE STUDY
GreenSteam Industrial Plant
GreenSteam Industrial Plant relied on fossil fuels for high-temperature steam and processing. Rising energy costs and carbon regulations prompted the search for a cleaner, more efficient solution.
