Some ‘cool’ facts on insulation.
Between lagging your pipes, looking after your loft and filling up your cavity walls, there’s hundreds of pounds – and tonnes of carbon – to be saved.
It’s a familiar old song, and everywhere you look, someone seems to be singing it!
If you think you’ve heard it all before, you’re probably right, but before you completely give up on seeing anything new about insulation, here’s a short collection of odd facts, quick snippets and useful trivia that you just might find interesting.
Odd Performance Facts
There are lots of performance facts bandied about, especially over how much you can save by installing proper insulation in your wall cavities or loft ,but here are a few of the more unusual ones.
- Swedish builders put three layers of insulation in lofts, each 100mm thick and separated by a layer of building paper. It improves the insulation effect by around 60% when the wind blows, since it traps air within the insulation and stops it from being forced out.
- According to some estimates, as much as a quarter of the heat lost through the fabric of a typical house occurs as a result of cold bridging – losses around un-insulated areas such as where the walls meet the floors or roof, and around windows and external doors.
- Around 300mm is the optimum depth for loft insulation; doubling the depth beyond this will not double the energy saving.
Comparing different kinds of insulation and building materials to try to see which one will be best for your needs can sometimes seem a bewildering problem. Here are a few straightforward facts to help you tell your K-values from your U-values – and why they matter!
- A good insulator is a bad conductor of heat; it’s blindingly obvious when you think about it, but it’s worth saying all the same.
- An insulator’s K-value is one of the ways commonly used to measure its “thermal conductivity.” It’s all about how much heat can travel through a piece of insulating material one-metre thick for every one degree C difference between outside and inside temperatures.
- K-value units are W/m.K (Watts per metre per degree)
- U-values are typically used to give an idea of the flow of heat energy through a whole building component – a wall, window or roof – rather than a single type of insulating material. They measure the amount of heat moving through the whole thing for every one square metre of its surface area.
- U-value units are W/m2.K (Watts per square metre per degree).
- For both K- and U- values, the lower the number, the better insulation you’ll get.
- A good insulating material should have a K-value no higher than 0.04 W/m.k
- A well-insulated outer wall should have a U-value of less than 0.2 W/m2.K and a window 1.0 W/m2.K or lower.
Staying Environmentally Friendly
Saving energy’s a great way to help the environment, of course, and fitting good insulation is a very good start – but not all insulating materials are as eco-friendly as others. Here’s our final few facts to help you stay green all the way.
- There’s now a whole range of natural insulation materials available, including cellulose, flax, hemp, straw and sheep wool as well as recycled PET – made from discarded plastic cold drink bottles.
- Some kinds of traditional materials have recycled content; some glass mineral wools are 55% recycled and so is 20% of certain types of rock wools, while recycled PET is 100% recyclable.
- “Blown” cellulose is made from recycled newspaper.
- Studies suggest that natural insulating materials are more durable over time than their traditional counterparts – though you might have to wait for 100 years or so to be absolutely sure!