Electric heaters are viewed in two ways: they are expensive to operate and are completely efficient since power is immediately converted into heat. Because electricity is utilized, infrared heaters are also classified as electric heaters. All of this, though, is shared by them. The majority of electric heaters use radiant heat convection and infrared. We will show you how to compare different electric heaters using real-world examples. Do you go with a standard electric stove or an infrared burner?
Heating: convection vs radiation electricity
Most electric heaters don’t transform 100% of energy into heat, for example, the fan heater, which is utilized to power the propeller by a section of the electricity. Most heaters employ convective heat or a radiant heat and convection mix. There is no radiant heat equal to 1 kW of convection heat.
Condensing heaters heat the air, and moving air may have a substantial impact on heat. The room temperature lowers as soon as the doors open or shortly air. The furniture, the walls, etc of the room instead matter radiant heat. They function as a storage center and over time restore heat to space. You don’t need to heat the whole room as with convection heaters, but you may generate hot patches that don’t become heated most of your time and unoccupied regions.
Thermostats effectively control the temperature of the infrared heaters. Therefore, with a radiant heater, you need to eat less.
- Advantages of radiant heating
- No air and dust circulation
- Zone heating
- Storing heat in objects
- Optimized control options
Comparison of several heaters.
Let’s use a real-world example to compare the various electric heaters and their applications. Our idea is based on a space of € 0.25 for 60m3 and a power tariff.
1. Infrared radiator
Infrared radiators, with their distinctive red light, emit medium wave infrared radiation and use a reflector to infrared heat in the same direction. As a result, this is a genuine radiant heater. The infrared heater creates several hundred degrees of extremely intense heat, making being close to the heater virtually unbearable. There is a particular distance required to create a sense of ease.
As a result, heaters are increasingly being used in large rooms, churches, and outdoor settings. Another disadvantage is that the heater only covers a large area in one direction, necessitating the use of several heaters. Because of the radiant heat, the required working time is relatively short, which is why we only suggest this heater for outdoor use.
2. Electric convection heater
In the lower wave range of infrared wind, this radiator generates heat but the surface temperature is relatively low, and the main heat is released in convection form. The items are therefore not heated in the long run, therefore they don’t store warming and use quite a lot of energy. The feeling of heat typically is pleasant in the direct proximity of the heater.
3. Fan heater
The conventional fan heater uses infrared medium wave rays to release heat, but it is a convective heater since it requires a push to do so. The energy necessary to drive the propeller, on the one hand, leads to substantial energy losses and, on the other, just the air is heated. The fan heat experience is really uncomfortable, especially when you’re too near to the heater because the hot climate blows into your face, but you just feel the heat in the vicinity. The things in the room will be heated rapidly so that the heat does not stay in the space and will immediately refrigerate after heating. That is why this heater has a lengthy daily running duration.
4. infrared heating panels
Infrared heaters emit far-infrared radiation, which makes them genuine warmers. As a consequence, mostly storage objects are heated with little convective heat loss.
The large angle of infrared radiation and the possibility of placement around the room of models of varying sizes make it possible to heat items for a certain duration in the whole space. The low power density provides for a good feeling of heat around the heater. The user-friendly control mechanism provides both an energy-saving and an optimum heat experience.
Is it better to use infrared heating panels or traditional electric heating panels?
Hopefully, I could say that not all electrical heaters are the same, but that one kW does not equal a kW and so it has very little relevance in describing the amount of power needed to heat to a given extent. Not every electric heater is 100% efficient, in fact, no heater turns 100% of energy into heat. Heaters, on the other hand, use the energy provided more effectively and efficiently than 90% of the time. Infrared heaters are among the most powerful on the market.