What is Reflective Insulation

Reflective Insulation and Radiant Barriers

Reflective insulation, is normally made of aluminum foil, it's also known as a radiant barrier and is very Flexible, Light-Weight and easy to Fit.

Everyone has seen reflective insulation without realising it. Paramedics use it as emergency blankets. Firefighters protect themselves from fires with reflective foil insulation. Companies such as NASA use reflective insulation on their shuttles, they protect astronauts with it aswell.

Reflective insulation, mainly blocks radiant heat from transferring through air gaps. Radiant barriers reflect and block excessive heat in the summer and retain heat through winter. Reflective insulation will also reflect the heat generated in your home back inside and block the heat from escaping. Meaning there is less heat escaping keeping your home warmer from less heating for longer. Resulting in lower fuel bills.

Radiant barriers are like all other types of insulation because they lower the amount of heat that enters or exits a home. Other types of insulation trap air inside the insulation, not allowing it to escape and consuming a lot of space. Reflective insulation works to decrease the flow of heat through an airspace using minimal space.

Reflective insulation does not absorb moisture. When used in conjunction with other insulation, it tends to keep the insulation drier and has a better overall performance. It can be used in homes, transportation, factories, greenhouses, summerhouses, barns, conservatories and Many More!

Benefits of Reflective Insulation

·         Light weight, very strong and easy to install

·         Moisture-proof - will not allow moisture to pass through in either direction

·         Eliminates condensation within the ceiling and walls when properly installed as a vapor barrier

·         Unaffected by humidity with lower moisture transfer and absorption rates than mass insulation - no mildew, mold or fungus growth

·         No significant mass to absorb and retain heat

·         No change thermal performance over time due to compaction, disintegration or moisture absorption - common concerns with mass insulation

Insulation - A Long-Term Power Saving Investment

Insulation, by definition, refers to a mechanism to shield an interior, by using material that prevents either heat loss or gain, or sound transmission. There are varied forms of insulation, such as fire insulation, electrical insulation or impact insulation, however, we would primarily be focusing on thermal insulation, since it plays a major role in raising our quality of lives, and helping us save on power-bills.

Modern day buildings and high-rises are a form of a miniature ecosystem unto themselves. Ideal temperature and humidity levels are maintained to keep the occupants comfortable, irrespective of what the weather outside is. Cities, with their traffic and other distractions can be pretty noisy too, and the interior of our buildings is also somewhat shielded from that noise. Insulation, is thus used to reduce unwanted heat loss or gain, and can decrease the energy demands of air-conditioning systems. Certain effective insulation materials in use are glass wool, cellulose, rock wool, polystyrene, per-liter, wood fiber, plant fiber, urethane foam, vermiculite etc.

Factors like a building's design, local climatic conditions, prevailing power tariffs, and the client's budget and requirements are taken into consideration before deciding upon what type of insulation to employ. Building codes pertaining to that region also play a role in the choice or type of building insulation used. Professionals like a qualified home energy auditor are consulted to analyze energy requirements, and decide upon the best insulation procedure. First and foremost, the 'thermal envelope' for the building has to be defined. A thermal envelope is the area in the building that needs to be insulated, wherein areas like the attic, and the basement are usually not included. The smaller the area to condition, the lesser the insulation costs and energy bills. It is imperative that proper planning for the layout of the insulation is done before the building work commences, since the retro - fitment of insulation requires parts of the building to be deconstructed to reach the inner layers for placement of the insulation material, which could be a major inconvenience to the occupants.

Often, as part of the insulation procedure, 'radiant barriers' are placed to reduce radiant heat transfer across an air space. Radiator insulation works in an effective manner by reflecting the heat, thereby not allowing it to get absorbed by the building. The downward heat flow is, thereby, also reduced, since the upward heat flow tends to be dominated by convection. The major component of building insulation is, however, the bulk insulators which block conductive heat transfer and convective flow, either into the building, or out of it.The bulk insulators are capable of resisting conductive heat transfer using the air spaces found in material like foam, fibers or plastic bubbles. Bulk insulators are particularly effective for air-conditioned buildings.

Introducing the Radiant Barrier Foil

It’s been a while since the Radiant Barriers have been introduced, but it wasn’t until recently that roofing contractors and property owners realized their potential and advantages.

How Radiant Barrier Insulation works

There are three ways by which heat is moved around the home’s interior -radiation, conduction and convection.

Radiation is the transfer of heat across space whether something is in its way or not. It is actually responsible for most of the heat movement inside the home. A huge amount of heat that moves inside your home is actually heat that radiates from the sun.

With conduction, heat is moved between two things – pretty much like how a spoon is heated up when it touches a hot food, or when glass gets cold when poured with cold water. A material that has less density has lesser conductive properties.

Convection happens when heat is moved through the air. Think of how hot air moves up to the top of the room or how a turbo broiler cooks food.

You may be wondering why Radiant Barrier Insulation, an aluminum insulation, is superior to regular insulation systems. But how exactly?

Regular insulators don’t really stop the transfer of heat; it merely slows it down. Soon, the heat will move around the home, eventually reaching the attic and the areas below it, including the living spaces.

Radiant Barriers Foil, on the other hand, stops heat transfer by deflecting as much as 97% of the heat that gets in contact with the roof.

How Radiant Barrier Functions - In Simple Terms

You might have heard a great deal about radiant barrier attic foil of late and how "amazing" it is at saving you money on your energy bills. I'm the first to extol the benefits associated with radiant barriers installed either by professional installers or do-it-yourselfers. Still, one needs to always remember the old adage, "If it sounds too good to be true, it probably is". The key to realizing your potential savings is seeing how radiant barriers function and adopting a realistic stance in your expectations.

First, what precisely is meant by a radiant barrier? Let us make a trip back to 7th grade science class and recall the three ways in which heat flows, conduction, radiation and convection. The principal two types of heat flow into a home are by radiation and conduction.

Conduction refers to heat flow by means of physical contact. Heat will instantaneously move from the skillet you are holding in your hand. Heat is ALWAYS transferred from hot to cold. Your home has conductive heat flowing through its walls. (Cool inside, hot outside - that's when heat is coming in.)

Radiation is a type of heat in the form of wave (like sound waves) that can travel across a vacuum or an air space. You can FEEL radiant heat without actually needing to touch the heat source. Using the example of the hot skillet once more, if you place your hand over the skillet, you will FEEL the skillet giving off heat without actually touching the device. Radiant heat is also capable of roasting marshmallows on a frosty night or making your face FEEL warm on a day when it's cold and sunny.

Radiant heat travels very fast - in fact, at the speed of light - until one of two things takes place: the heat (energy) is either REFLECTED or it's ABSORBED. Everything absorbs SOME amount of radiant heat. A dark roof can absorb nearly all this radiant energy and can easily attain a temperature of 170 degrees on hot, sunny days. This heat then gets re-radiated in all directions. This heat will end up some place, and the next thing in line is the attic insulation that you have on your ceiling. Eventually, it will heat up also. This is similar to drawing a hot blanket across your home.

In the absence of a radiant barrier, the maximum surface temperature (and not air temperature) of your attic insulation can climb up to more than 130 degrees. When this occurs, your ceiling THINKS and ACTS as if it's over 130 degrees outside. It's no wonder that it's not possible for you to stay comfortable and your air conditioning unit runs without a pause. This is a MASSIVE difference between outside/inside temperatures. The result is that your home uses a great deal of energy (read money) to suck the heat out (with the help of air conditioning) and keep you comfortable.

Wouldn't it be just great to PREVENT the heat from coming inside in the first place instead of paying to eject it AFTER it has entered your home?

What radiant barrier attic foil does is BREAK this path and keep the radiant heat from getting in. Instead of absorbing the heat, like a majority of products, radiant barrier REFLECTS a full 97 percent of the radiant energy. Basically, it bounces the radiant energy back to where it came from. There's no need to worry about increased roof temperatures. Studies indicate that roof temperatures only increase between 2 to 10 degrees on roofs equipped with radiant barrier.

After you have installed a radiant barrier, the maximum surface temperature of the insulation will generally be limited to within a few degrees of ambient (that is, outside) air temperature. Most folks appear to always talk about a "Cooler Attic." That's nice, but what we really want is the TOP of the insulation to stay cooler. By reducing the gap between outside/inside surface temperatures, you will have the key to comfort and energy savings.

Certain companies make fantastic claims of 30-50% savings by installation of radiant barrier foil insulation. Don't get taken in by every claim that comes your way. Most of the time, "normal" savings are typically in the 10-25% range with some instances of savings of 30% or more being noticed. You need to be realistic with your expectations; the bigger the roof, the higher the percentage impact that radiant barrier will have. Certainly, radiant barrier can help any home to get rid of heat gain.

Reflective Insulation Material

Heat Insulation Material