Plafotherm® DS TAS

Hybrid Heated and Chilled Canopy Ceiling

Plafotherm® DS TAS
Plafotherm® DS TAS
Plafotherm® DS TAS

Listed by applicability

Applications

Workplace: Offices, Assembly Rooms, Common Rooms, Facilities for Meetings, Conventions and Conferences, Broadcasting Rooms, Television Studios, Stage and Studio Rooms
Recreation and Culture: Banks, Museums, Places of Assembly, Sales Areas, Shopping Centres
Education: School, School of Higher Education
Public Institutions: Court Houses, Government Buildings
Hotels and Gastronomy: Hotels and Resorts
Public Areas: Entrance Areas

Requirements

Design: Digital Print, Perforation, Powder Coating, Steel
Hygiene: Antibacterially disinfectable, Cleanable by vacuuming, Virucide disinfectable, Wipeable
Climatic Regulation: Heating and Cooling, Ventilation
Acoustics: Room Acoustics
Corrosion Protection: Interiors
Fire Protection: Fire Behaviour / Building Material Class

Technical Data

Acoustics

Fire Protection

HVAC

Corrosion Protection

Sustainability

Surfaces

Certifications

Additional Equipment

Contact

Downloads

Product description

This hybrid heated/chilled canopy ceiling provides ideal climatic conditions in your rooms by means of radiation and convection. Plafotherm® DS TAS is extremely versatile thanks to the combination of cooling, heating and venting. Comfort according to DIN, ISO and SIA is guaranteed. Another advantage: As acoustically effective solution, it improves the room acoustics in buildings with subsequent concrete core working. The system is particularly efficient due to the use of free cooling at night and the low CO2 emissions - the economic operation of refrigeration results in an improvement of the COP value (Coefficient of Performance).

  • heating/cooling by means of radiation and convection creates a pleasant room climate
  • acoustically effective solution to improve room acoustics for buildings with subsequent concrete core working
  • comfort tested to DIN, ISO and SIA thanks to the combination of cooling, heating and venting
  • low CO2 emissions due to reduced energy consumption
  • high level of energy efficiency by using the free cooling in night operation
  • particularly economical due to improvement of the COP value
  • hygienic and easy to clean