Low pressure hot water lphw radiant panels rapidly distribute heat throughout a space and are much more responsive than underfloor heating.
Hot water radiant ceiling panels.
Water pipes electric or air flows embedded in the panel.
Space saving radiant ceiling systems do not require wall space.
With hydronic radiant ceiling systems your space is heated and cooled more efficiently bringing comfort to all occupants.
Wall and ceiling mounted radiant panels are usually made of aluminum and can be heated with either electricity or with tubing that carries hot water although the latter creates concerns about leakage in wall or ceiling mounted systems.
The pump energy required in hydronic systems is much less than that required for fans in forced air systems.
They also occupy considerably less wall space than a radiator of equivalent output freeing room for other equipment.
Radiant heating panel systems function based on providing a comfortable environment by controlling surface temperatures and minimizing excessive air motion within the space.
The amount of energy to distribute the same amount of heating in forced air systems is typically 10 times greater than that needed for pumps in a hydronic radiant system.
Radiant ceilings circulate hot or cold water through concealed copper tubing on the back of the panels providing sustainable heating and cooling with minimal air ventilation requirements.
Radiant ceiling panels aero tech also manufactures and installs its own line of radiant ceiling panel products for the construction and hvac industry.
Space saving radiant ceiling systems do not require wall space.
Most commercially available radiant panels for homes are electrically heated.
Radiant ceiling panel systems can be used during a building retrofit process while earning points toward leed certification radiant ceiling panels offer temperature gradients so low between ceiling and floor that there is less than one degree of difference.
The pump energy required in hydronic systems is much less than that required for fans in forced air systems.