Super heating/cooling sail-en
The innovative technology of Dephina
The air circulation of conventional air conditioning easily stirs up bioaerosols, which can lead to "healthcare-associated respiratory tract infections." Is there an air conditioning system that avoids this risk?
In hospitals, the use of heat radiation is very suitable for regulating indoor temperature. Healthcare-associated respiratory tract infections can be reduced in this way.
Super heating/cooling sai
Super heating/cooling sail can increase (or decrease) the temperature of one or more surfaces of the housing structure to create a cold (or hot) radiating surface. This is made possible by a technical method: a heat exchange occurs between the radiating surface and the surfaces of human bodies, equipment, furniture, and building structures, resulting in climate control. The SuperTM exchanges energy by emitting and absorbing long-wave infrared rays, thereby achieving cooling (or heating) function. Since no heat is exchanged through the air, it can effectively avoid nosocomial respiratory infections caused by air disturbances.
In summer cooling, SuperTM uses Dephina's innovative technology, significantly reducing the occurrence of surface condensation. No cold wind blows, making it more comfortable. There are no electrical devices like fans, and the operating noise of the system is very low. For the cold sail at the end of the radiation air conditioning used in medical laboratories, SuperTM uses a smooth, pore-free metal material with good antibacterial properties and a long lifespan. At the same time, maintenance is easy due to the use of a modular removable structure.
View more suggestions - NaturOTM cleaning system.
The technical parameters of SuperTM comply with EN14240. They meet the requirements of DIN 1946-4 for indoor air technology - Part 4: Air conditioning systems in buildings and spaces of the healthcare sector.
DIN 1946-4 Indoor Air Technology - Part 4: Air Conditioning Systems in Buildings and Spaces of the Healthcare Sector.
6.8 Room Heating and Cooling Ceilings/Devices
Surfaces of heating and cooling surfaces must be technically smooth, closed, and easy to clean, as well as resistant to disinfectants. In rooms with increased hygiene requirements, heating surfaces with a predominant radiation component must be used.
Decentralized air coolers, room climate control devices, convective cooling systems such as cooling ducts and cooling convectors, as well as open cooling ceilings and suspended cooling sails are permissible only if they operate with dry cooling and are intended for rooms without increased hygiene requirements.
In the operating room, wall heating surfaces may be used. Other decentralized heating and cooling devices with convective effects are not permitted. In particular, underfloor heating or heat from rooms below may impair the effectiveness of the TAV outlet in the operating room.