Why UFH Is the Most Effective Heating Source for Buildings

Over the past few years, Underfloor Heating (also known as UFH) has undergone a bit of a transformation. From something that was once seen as a luxury, has grown in popularity and is now very much part of the mainstream.

When discussing the benefits of underfloor heating, however, a lot of discussions tend to focus on the space saving and energy efficiency gains that result from using UFH over conventional radiators. Lesser known are the scientific reasons behind the popularity of UFH and how this heating method ties in closely with the design of the human body. Yes, you read correctly, underfloor heating has been deliberately designed for human comfort!

Underfloor heating in the home

 

The Body’s Reaction to Low-level Heat in the Home

To understand why UFH is the most natural source of heating in a house, it’s important to understand how way heat is delivered and how it can affect the human body.

For our senses to function most effectively, our head and face need to be uncovered since all sensory organs – eyes, nose, mouth and ears, are located in these parts of the body. Our very survival as a species depends on these. This is why the body warms from the feet upwards, keeping the head as cool as possible.

Cars are specifically designed with this in mind, so next time you’re in the car keep an eye out and you’ll notice that hot air deliberately blows towards the feet. If you want to defrost the windscreen, you have to physically direct the heat away from your feet.

Underfloor Heating 

 

Radiated Heat

Radiated heat moves in straight lines, and will only heat up surfaces that are directly exposed to it. This is why if you stand close to a bonfire on a cold November night, the parts of your body facing the bonfire become hot.

Radiators operate on the same principle. While UFH also delivers some heat by radiation, unlike traditional radiators, heat is emitted directly from the floor surface and is therefore evenly distributed across the room. This eliminates hot and cold patches, making for a more comfortable environment.

 

Conduction of Heat

Heat can also travel via conduction. The best way to witness this in action is by putting your hand close to a hot surface. You might be able to keep your hand close to the surface for quite some time, but as soon as your hand makes contact – well, you know what happens next! The same happens when cold air comes into contact with a radiator or warm floor, transferring heat into the air.

 

Hot Air Rises – or Does it? (Convection)

There’s a common misconception that hot air rises. For hot air to rise, it would have to defy gravity, which we know is not the case. What actually happens is that heated air becomes less dense and molecules move further apart. Whereas cold air molecules are close together giving it more mass than warm air. As a result, the cold dense air is pulled down by gravity, displacing the warm air upwards.

With radiators, the cold dense air is always closer to ground level, while the less dense warm air sits at ceiling height. Whereas with UFH the warmest part of the room is at the heated floor level, just as the human body would want it to be.

Radiators or UFH

 

Underfloor Heating in the Home and Buildings

Understanding how the body reacts to heat explains why UFH is such a natural and efficient form of heating.

Whilst underfloor heating can increase the value of a building and free up a lot more room than other heating methods, it always pays to advise customers on why it is also a more efficient heating source. When this is understood by installers and homeowners alike, we can work together to find ways to make UFH even more efficient.

UFH Installation Help and Support

If you would like more tips on installing your underfloor heating or which solution is most suited to your building, please visit our UFH for homeowners or for general installation advice, visit our help and support section.

You can also email us or get involved with us on twitter at @speedfit.

 

Author: JG Marketing

Share on:

Connect with Us

Get the latest blog posts directly to your inbox