Technology
A self-regenerating mesoporous material
Developed from research on mesoporous transition aluminas (UCBL, IFPEN), patented and industrialisable process.
Technology
Developed from research on mesoporous transition aluminas (UCBL, IFPEN), patented and industrialisable process.
Principle
Passive Range
Adsorption
High RH
Desorption
Low RH
The material adsorbs humidity when relative humidity is high, and desorbs it when it drops. Spontaneous cycles, no energy required.
Active Range
Adsorption
Forced
Regeneration
Forced
The material is integrated into a controlled airflow that forces adsorption and regeneration cycles. High energy performance.
The Material
Optimal porous structure for water adsorption at the nanometric scale.
No heating or treatment needed to regenerate the material. It regenerates naturally at room temperature.
Protected intellectual property, originating from French public research (UCBL, IFPEN).
Long-lasting efficiency, resistant materials. Designed to last without performance loss.
Engineering
One material, two engineering disciplines: shaping drives the passive range, process engineering powers the active range.
Passive Range
Each use case calls for a dedicated form factor. The passive range currently exists as a flexible ribbon on synthetic non-woven fabric. A coated format is under development, to extend the technology to surface applications — coatings, technical paints, architectural treatments.
Value Proposition
No energy · No maintenance · Lasting efficiency
Active Range
The addressable markets span a broad spectrum. The active range goes from compact, standalone units — usable by individuals or tradespeople without specific installation — to modular systems designed to integrate into industrial HVAC infrastructure. One process, formats adapted to every scale of use.
Value Proposition
Energy performance · F-gas free · Modular
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