AIRTUBE T1

Commercial air purification system
Project Airtube Img 1 V1
  • Project Airtube Img 2 V1
  • Project Airtube Img 3 V1
  • Project Airtube Img 4 V1
  • Project Airtube Img 5 V1
  • Project Airtube Img 6 V1
  • Project Airtube Img 7 V1
  • Glasspure
  • 2020 . Mar

This air purifier uses molecular glass as an important substrate for photocatalytic reactions in the light machine module of the air purifier. Molecular glass is made by recycling waste glass and then remanufacturing it into glass sand. It is then subjected to patented silicon sand low-temperature sintering technology to form a porous structure with a large number of micropores. This allows molecular glass to create more surface area under the same volume, effectively improving the efficiency of photocatalytic reactions. According to actual tests, the removal rate of bacteria can reach up to 95%, the removal rate of PM2.5 can reach up to 91%, the removal rate of formaldehyde can reach up to 94%, and the negative ion generation amount is greater than 1,423,000 (ions/c.c). The photocatalytic air purifier has a significant effect.

In this project, we assisted in the arrangement of the molecular glass light machine module, the development of the structure concept, the definition of the appearance and style, and the creation of a prototype. Together with the customer, we successfully created a photocatalytic air purifier with a super high level.

Project Airtube Post Img 1 V1
Project Airtube Post Img 2 V1
Project Airtube Post Img 3 V1