Here’s What You Need To Know About Electric Radiators

Not all homes in the United Kingdom have access to mains gas, which means many people across Great Britain have to use other means to keep warm simply because they are in an isolated part of the nation or they are out on a limb. While oil boilers and LPG are common solutions, they often leave users at the mercy of their suppliers. With that being the case, you might be wondering if there are other alternatives that you can use to keep your home warm through winter.

With over two million households in the UK relying on electric heating to keep their homes warm, more and more people are now realizing that electric radiators are the answer to their woes. Despite this, fallacies about ‘going electric’ continue to persist to this day. If you are currently considering electric heating solutions, do not fall victim to this cycle of conflicting opinions. To learn more about electric radiators, how they work, and some of the common misconceptions people have concerning these appliances, read on.

How Do Electric Radiators Work?

An electric radiator isn’t that dissimilar from a central heating radiator. The only difference is that electric radiators do not rely on existing plumbing to deliver heat.

Electricity-powered radiators are standalone units with dry elements or thermal fluids which get heated up and transfer heat to the surrounding air. About two-thirds of the heat produced by these appliances is created through convection while the remaining third is given off in the form of radiant heat.

While there are many types of electric heating appliances available on the market today, most differ from electricity-powered radiators in a few key areas, which help separate them from one another. Here is a look at three common electric heating appliance alternatives:

– Convection heaters: These heaters use exposed wire elements to heat the surrounding air and have no moving parts. They rely on the natural movement of heated up air to disperse heat.

– Fan heaters or blow heaters: These also use exposed elements to warm the air but have a fan or blower whose main purpose is to disperse heated air into a room.

– Radiant panels or infrared heaters: These use infrared heat (radiation) to emit warmth. These types of heaters rely on heating surfaces, people, and walls directly instead of air volume.


While all of these appliances produce heat and disperse heat in different ways, it’s worth noting that all types of electric heating systems are 100 per cent efficient at their point of use. That’s because the power drawn from the wall socket is effectively transformed into heat. While that’s the case, it can be easy to assume that the playing field for all types of electric heaters is level, but that isn’t the case – their controllability plays a major role in determining their operational efficiency.

Electric radiators are superior to most of the available options as they offer precision thermostats and digital weekly programming. Such features make it easier for users to manage their power consumption and lower their heating bills. Some radiators even have Wi-Fi connectivity, allowing you to manage the system from a single point of use, such as a tablet or smartphone. All you have to do is download and install the appropriate heating application on your handheld device to access information concerning your system like energy usage so you have an easier time managing your habits and finding ways to save money. Panel heaters are a heater that heat by convection. This is where they get their name convection heaters. If you would like to know about panel heater then see here.

Switching to Electric Heating

As renewable energy options become more common, going electric is quickly becoming the preferred choice for a more sustainable future. Compared to options like gas boilers, which release harmful emissions through their inefficient combustion, electric heaters offer controllable, clean, and efficient heating and do not require ongoing maintenance.

Central heat, on the other hand, is highly temperamental and tends to break down at the worst times. Sadly, the system’s biggest strength is also its Achilles heel; by solely relying on one source of heat to disperse heat to each radiator, the entire system stops working once the boiler fails.