Why Low E Windows are a good investment for your Home?
Natural light is always an asset in any home. The more sun you have coming in through skylights and large windows, the more open and inviting a space will appear. Also, when you have the sun working for you full time, it cuts down on daytime energy costs. However, whenever you open up your house to the outdoors, you’re also making yourself vulnerable to exterior threats. In this case, the more daylighting you have in the home, the more you risk overexposure to the sun. Solar gain, heat loss, and UV infiltration will always be an issue when it comes to natural light. Therefore, when installing new panes in your house, it’s always a good idea to invest in low-e windows.
What Is a Low-e Window?
A low-e glass window (which stands for low emissivity) is simply a windowpane coated in microscopic layers of metallic oxides. The coating appears invisible to the naked eye, allowing as much natural light into the house as possible. However, though transparent, this coating also protects your home from unwanted UV rays which can burn your skin, fade your carpets, and damage your furniture. Plus, it also helps to control radiant heat (infrared light) as it enters and leaves a room. In other words, it keeps your house warmer in the winter by reflecting certain segments of the sun’s light spectrum back into the home, and cooler in the summer by reflecting particular sections outside. This saves on unnecessary utility expenses while creating a more comfortable living environment.
So Where Is It?
This metallic oxide layer can be applied to a few different areas. If it’s a soft coating, it’ll be on the interior surface of the pane. Soft coats are actually very strong in terms of their reflective capabilities, making them very energy efficient, however they can’t hold up under extreme physical conditions so they have to be on the inside. Hard coats are less efficient but can withstand the elements, and therefore are commonly layered on the outside surface of storm windows. However, the most common application area is in between the two panels of a double-pane window. It’s not actually a coating so much as a thin sheet suspended in the middle of the panes; so it not only acts as a reflective low-e window but also as a form of thermal insulation against drafts and heat loss. In other words, this sheet can effectively turn a double-pane into a triple-pane, and this insulation can be further supplemented with the addition of inert argon gas for even more R-value.
How Does It Heat the Home?
When first invented in the 80s, low-e windows only came in one variety for one purpose: to keep in the infrared light. It was originally intended for cold-weather climates, such as the Northern or Midwestern regions of the country. They were designed to let in as much light as possible and to reflect the solar radiance back into the room when the heat tried to escape out the windowpanes. Therefore, the glaze acts as an insulator, trapping the warmth in a building. In fact, if you stand near a low-e window you could possibly feel the heat bouncing off the pane, even in the winter. This cuts down on energy bills and it keeps the glass constantly warm, which reduces condensation buildup on icy days.
But What about the Summer?
About twenty years ago, people in warmer climates got jealous. The South wondered why Northerners got all the energy efficiency when they were down there sweating. So now low-e glass windows not only keep the heat in during December, they can also reflect it back out during July. Spectrally selective glazings are now being made for these warmer regions; they literally pick out and refuse entry to certain portions of the light spectrum. They therefore allow less infrared light (radiant heat) to enter a home, keeping it cooler during those summer months and helping to decrease AC costs.
Who Do I Ask?
Call California Home Solar to get a FREE consultation! Our professionals will answer any question you may have about Energy Efficient Windows and will give you advice about which models will work best for your specific area in terms of durability, application, location, strength and overall efficacy!