Huma presents
Always on. Zero waste. One solution for thermal energy.
CaloraBuilt like LEGO® for energy
Calora is built from modular thermal units that can be combined and scaled to match different energy needs. Like LEGO bricks, each module connects to the next — creating systems that range from compact installations to large industrial heat infrastructure.
The system is built to last for decades, deploy swiftly, and function dependably thanks to its abundance of materials.
Applications
Calora can deliver high-temperature heat across a wide range of sectors where reliable thermal energy is essential.
Data Centres
Modern data centres require vast amounts of energy while producing large quantities of heat. Calora enables that energy to be stored and reused, turning data centres into stable energy hubs.
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Industry
Industry runs on heat. From steel and cement to food and chemicals, production requires large amounts of high-temperature energy delivered continuously. Today, most of this heat still comes from fossil fuels — not because better options do not exist, but because industry has lacked solutions that match the same stability, temperature and scale. Calora enables exactly that.
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Waste-to-fuel
Waste streams contain large amounts of recoverable energy. Through advanced thermal conversion processes, they can be transformed into fuels such as methanol, hydrogen and synthetic fuels. Calora delivers the stable high-temperature heat these processes require. By storing renewable energy and releasing it as continuous heat, the system enables efficient and scalable waste-to-fuel production with dramatically lower emissions than traditional combustion.
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District & Building Heating
Calora allows cities to store renewable electricity as heat and deliver it through district heating networks whenever demand requires it. By turning intermittent solar and wind power into stable thermal supply, the system enables reliable, low-carbon heating for both new urban developments and existing district heating infrastructure.
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How Calora works
Renewable energy is often produced when demand is low. Calora captures this electricity and stores it as high-temperature heat inside ceramic thermal batteries.
When energy is needed, the stored heat is released and delivered directly to industrial processes or energy systems. The result is stable, emission-free heat available exactly when it is required.
Updates
Follow along as we explore the technologies, challenges and opportunities shaping tomorrow’s energy system – and see how Huma is turning bold visions into reality.
Industry runs on heat. Not electricity.
22% of global energy consumption goes to industrial heat. Almost all of it comes from fossil fuels. Without solving high-temperature heat, we will not reach climate targets.
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Humatopia – The Digital Brain of Industrial Heat
Industrial heat cannot be managed with hardware alone. Storing thermal energy is just one aspect of the process. To replace fossil fuels at scale, industry needs intelligence layered on top of infrastructure. It requires control, forecasting, and optimisation in real time.
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Store Energy When It’s Cheap. Use It When It Matters.
Renewable energy has become remarkably cheap. In many regions, solar and wind now produce electricity at lower cost than coal and gas. At times of high production, power prices even fall close to zero.
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