HEAzs - mode of action and function

The HEAzs heat circuit

HEAzs is characterized by rapid heat release after start-up and long storage after switch-off. For the optimal heat output in between in terms of power and duration, a wide variety of controls are available. Whether simple timer, temperature control or high-tech Siemens control - everything is possible.

HEAzs - just the right temperature
The HEAzs surface temperature after the heating phase is max. approx. 75 degrees at standard internal temperature. This temperature range ensures strong and at the same time gentle heat dissipation without risk of burning. Due to this fact, HEAzs is TÜV approved both as a space heater and as a clothes dryer.

HEAzs in the bathroom - a prime example of fast, effective and economical heat.
60 minutes of heat with 30 minutes of energy - activate HEAzs, timer 30 minutes -.
Enjoy 60 minutes of heat thanks to strong storage effect.


What makes a modern heating system?
Flexibility, speed, efficiency and economy are important characteristics. Modern heat is generated where it is needed, where people are - within a few minutes. Water is a very sluggish medium that requires a very long heating phase. HEAzs, however, heats precisely, quickly and directly where it is needed.
Thanks to the ultra-flat hybrid design and the outstanding properties of the ceramics, HEAzs is noticeably warm after only about 2 minutes, hot after about 5 minutes and at operating temperature of up to max. approx. 75 degrees* after about 10 minutes. The duration of operation can now be adjusted by means of various control mechanisms. Whether timer, bus system, temperature or motion sensor and Siemens control - everything is possible. Due to the strong storage effect of the ceramics, HEAzs continues to give off the pleasant heat to the room for approx. 30 minutes even after it has been switched off.

Enjoy soothing radiant heat

HEAzs emits a large proportion of the heat as pleasant, long-wave radiant heat.
This pleasant radiant heat ensures a balanced air temperature, effectively counteracts dust circulation and creates a natural feel-good room climate. The radiant heat - similar to solar radiation - penetrates the air without heating it very much, then hits solid matter such as floors, walls, furnishings, etc. and heats them up. This creates an optimal heat distribution in the room. Strong air circulation and thus dry and dusty air is counteracted - ideal for allergy sufferers. The pleasant radiant heat unfolds a particularly
The muscles are relaxed, the entire organism is revitalized and the sense of well-being is increased. In addition, the walls are warmed and dried, effectively preventing the formation of mold.    

>> more info


Basically, the heat output of a radiator can be in two different ways: as convection heat - i.e. via warm air, as radiant heat or from a mixture of both forms of heat.

Mode of action Convection heat

Convection heat heats the air, sets it in motion and creates vertically different heat zones. Temperature differences of several degrees Celsius (floor cool - ceiling hot) are the result. In addition, the cold walls radiate cold back into the room.*

Mode of action Radiant heat HEAzs

The radiant heat continues long-wave and quietly into the room, creates a homogeneous heat zone, warms people, objects and walls. All these heated objects and walls in turn radiate the heat back. The insulating effect of the walls is increased.*


HEAzs - the hybrid radiant heating system
HEAzs delivers the majority of heat to the installation room via soothing radiant heat. In addition, the heat is released via gentle convection thanks to the unique rear-ventilation design of the HEAzs panel back. The room air flows from below through the hybrid shaft along the back of the panel. The heat is thus dissipated in a targeted manner from the rear panel and fed into the installation room, thus optimizing efficiency. In addition, the gentle convection component enables more flexible use of the HEAzs radiant radiators in the room.

HEAzs - heating power

HEAzs can be used both as individual panels, e.g. in the bathroom of a vacation home, and as controlled in the group, for heating apartments, floors and houses. Depending on the size, the individual panels have a defined heating capacity in watts. The size of the room to be heated depends decisively on the heating demand of the room. The table below should serve as a guide - the exact dimensioning - especially as the main heating - must always be done by the planner, architect or heating engineer.

Space heating capacity HEAzs depending on the heat demand of the room

Heating requirement HWB in kWh / m².a - Room height approx. 2.5 m

Calculate electricity consumption and costs in infrared heating:

To calculate electricity costs, we need the electricity price in cents per kilowatt hour (kWh) and the wattage of the HEAzs infrared heating panel. For example, if we assume an electricity price of 25 cents / kWh and a HEAzs infrared heating panel with 500 watts of power, the calculation is as follows:  
0.25 Euro x 0.5 KW = 0.125 € / hour of operation.

Attention:
If electricity is generated by your own PV system, the heating costs are reduced even further!

*The illustration is only intended to show the different temperature zones and to express that these are less pronounced with radiant heat than with convection heat. The temperatures described are not generally valid and are only rough approximate values. The values can vary greatly depending on local conditions.