The spirit of the sublime. From the elements of nature to cutting-edge design
UV Disinfection
Copper Circuitry
Beyond aesthetics
From a technical, qualitative, and design standpoint, Cristalique offers nothing but the cutting edge of the industry.
Excellence in components and technologies, designed and manufactured in Italy, for unmatched water purity.
Cristalique distills water with a primordial force.
In Cristalique, filtration conceals the rigor of science and the innovation of technology.
Two combined processes
Microfiltration and Nanofiltration
A filtration system with natural activated carbon derived from coconut shells to absorb color, odors, and taste—making the water delicate, clear, and transparent. Mechanical nanofiltration with a hollow fiber membrane achieves an unprecedented filtration level: 0.01 microns. This ensures the removal of any suspended microparticle—not only microplastics and endotoxins, but also viruses, bacteria, and airborne pollutants.
Total protection
UV Disinfection
The hydraulic system uses LED technology which, unlike traditional incandescent systems, does not affect water temperature. By neutralizing the DNA of microorganisms in a sustainable way, Cristalique avoids the use of chemicals and ensures the highest level of microbiological purity.
Valuable choices
Copper Circuitry
An additional barrier Cristalique provides against bacterial proliferation lies in the system itself: copper circuits that inhibit the growth of bacteria, viruses, and fungi. To minimize the risk of microbial contamination and enhance overall microbiological safety, Cristalique once again turns to nature, with an element of extraordinary properties.
Cool and sanitize
The CO₂ Revolution
The power of carbon dioxide at your service—to chill and sanitize glasses or bottles in seconds. Through the high-pressure release of CO₂, two results are achieved: an endothermic reaction for instant cooling of glass surfaces—without ice—and natural sanitization, thanks to carbon dioxide’s innate antibacterial properties that reduce microbial load in record time.
