Window Condensation (F.Y.I.)

Window Condensation

If the windows in your home constantly fog up or collect moisture, don’t be upset with your windows or "the company that sold us…" They’re sending you a message that may help save your home and your health!

What are my windows telling me?

Windows bring you more than sunshine and a view of the outdoors. They also can help you protect your home and your health. Your foggy windows may be trying to tell you to reduce indoor humidity before it causes hidden and costly problems elsewhere in your home: peeling paint, rotting wood, buckling floors, insulation deterioration, mildew, even moisture spots on ceilings and walls.
This information is provided to help you understand the relationship between windows and condensation, and how to tell when persistent high humidity and condensation may be increasing your risk for home and health problems.

Do windows cause condensation?

No! Windows do not cause condensation. However, windows ARE most often the first place where condensation can be seen. Why…. To perform this experiment, you’ll need a microwave, a microwave safe cup or Pyrex measuring cup and one cup of water.

• Fill one (1) cup of water in the microwave safe cup.
• Place cup within the microwave.
• Boil the water in the microwave for (3) three minutes.

Now closely pay attention to the following:

• Upon completion of the (3) minute period, as you open the microwave, there is condensation on the interior glass of the microwave door. This is on the INSIDE of the microwave…. NOT the outside.
• Why: Like a storm front, the inside temperature of the microwave, was HOT, the exterior of the microwave was room temperature. Hot meets cold….("Storm front") Condensation!

You see as the Microwave door seal makes the interior "AIR-TIGHT," the moisture created can not escape so, it attaches itself to the coolest spot of the interior, the glass (on the door). Key: Moisture is introduced to the interior environment.

Let’s perform another…
(This one may be familiar to you if you simply think about it….)

• Prepare your shower in the bathroom.
• A HOT shower. Close all doors, windows and DO NOT turn on the ceiling fan.
• Take a nice hot shower.
• Upon completion of the shower, there is steam/moisture on the mirror and (if there is a window) on the glass of the window.

You see the bathroom is (pretty closely) "AIR-TIGHT," the moisture created again, could not escape so, it attached itself to the coolest spot of the interior, the mirror or the window. Key: Moisture was introduced to the interior environment.
Now…. How do we remove it, we vent the room, open the door, or turn on the ceiling fan OR OPEN THE WINDOW. The window did not create the condensation, the moisture introduced did. There is one more thing… the temperature is warmer inside than out.

If windows created moisture or Condensation alone, we’d sell them in the desert and

MAKE A FORTUNE!

So….You’re probably not surprised or concerned when your bathroom mirror becomes fogged. You expect it after a hot shower. Your car windows fog up in humid weather (especially when the temperature drops suddenly) or in winter when you have several passengers. These are typical examples of condensation. It usually occurs in cold weather, but also can occur during humid months when air conditioning is running. Once again, the mirror doesn’t cause the condensation. The car windows don’t cause it either. These are just the first places you actually see condensation. Check your bathroom walls after a shower – you’ll see condensation there, too. Run your finger along the wall. You’ll see water on your finger, and you’ll see the trail of your finger through the condensation on the wall.
The same is true for the windows in your home.

What does cause condensation?

Condensation forms when warm, humid air contacts a cold surface. Moisture is in the air all around us. Warmer air can hold more moisture. As air cools, it contracts (just as people pull their arms and clothing tight around them when chilled) and its moisture condenses. When the temperature drops, the first place you will see any condensation is on your windows. Your windows are the coldest surface indoors. During colder months, indoor air is much warmer and holds more moisture than outdoor air, which is colder and dry. Warm, humid air cools and contracts as it contacts the cooler windows, and the moisture condenses on the glass.

Why is indoor air so humid?

Everyday living – Showers, baths, cooking (boiling water for pasta), washing dishes, doing laundry, and cleaning all add moisture to the air.. You may have many indoor plants, fish tanks, moisture in your basement, in your home, oddly, as much as four gallons or more per day in some homes. We even exhale moisture into the air as we breathe.
Home construction – Today’s energy-efficient, well-insulated homes help us hold down heating and cooling costs. But the same things that block outdoor air from entering our homes also keep moisture from venting to the outdoors.　

I wish I had a dime for every time I heard: "But my old windows never had condensation!"

That’s why you purchased new windows! You see, your old windows were drafty, not as energy efficient. With the application of NEW replacement windows, you have removed the old, cleaned out the window cavity, set the window securely in place, insulated around it, capped/deluxed the exterior, caulked/seald completely around the window and made your home an air-tight "Tupperware" container. Now, the moisture cannot escape. How do we get rid of it, we open a window/door, something. We vent!

Is condensation more likely in certain climates, types of homes or windows, or times of year?

Yes. It’s more likely to occur:

• In areas where January temperatures average 35ºF or less.
• In summer and fall, when homes pick up moisture from damp air. In fall, when the heating season begins and windows are closed, indoor air picks up the moisture. For the next week or two, temporary condensation is likely.
• Condensation can also form on the outside of your windows. This usually happens when it is hot and humid outside and is called "reverse condensation." When the air is cooler inside your home, it makes the surface of the glass cooler than the dew point. Plants around your window can increase the chance of having reverse condensation. You are also more likely to see it on clears nights when there is little or no wind.
• With sharp, quick drops in temperature, creating temporary condensation problems.
• For one year after construction or remodeling, while building materials dry out. Building materials hold a massive amount of moisture; condensation should be expected through the first heating season.
• On bay or bow windows, where air circulation is often restricted and windows tend to be a few degrees cooler since they project out from the insulated house wall.
• When drapes are closed and shades are pulled down. Today’s heavily insulated drapes and tighter shades restrict air flow over window glass and can contribute to condensation problems.

I have condensation on my double-glazed windows. How can I tell if it’s from bad seals or indoor humidity?

Before calling for repair service, try this easy test. Run your finger through the area where the condensation is formed. If your finger gets wet and leaves a trail through the condensation, it’s on the room side of the glass. That tells you that condensation is forming because of excessive indoor humidity.
If your finger remains dry and leaves no mark in the condensation, the moisture is collecting between the panes of glass. This tells you that you have "seal failure." The seal in that window has somehow been damaged and needs repair or replacement.

I’m convinced. How can we reduce indoor humidity?

1. Increase ventilation as a temporary solution to an acute problem, open a window in each room for just a few minutes, letting stale, humid air escape and fresh, dry air in. Your heat loss will be minimal.
2. Vent all gas burners, clothes dryers, etc., to the outdoors.
3. Install kitchen and bathroom exhaust fans to draw steam outdoors.
4. Keep attic vents open and clear
5. Install storm windows to keep interior glass warmer.

1. Control indoor moisture. Set your humidifier at the level recommended below for winter temperatures: Indoor humidity can be checked with a humidity monitor or regulated with a humidistat, available at most building supply stores and home centers.
2. If you’re an indoor plant lover, group them in one sunny room and avoid over watering.
3. Waterproof basement floors and walls. Run a dehumidifier if needed.
4. Insulate under the seat and head of bay and bow windows where condensation forms to keep window glass warmer. Run an electric fan near the window to help air circulation.

	Outside Temp	Indoor Relative Humidity
	-20*F	15-20%
	-10*F	15-20%
	0*F	20-25%
	+10*F	25-30%
	+20*F	30-35%

For more information:

You may email me directly at rodp@abc-siding.com

In the meantime, if your windows are over 20 years old, due to technology, chances are you need to replace them.
Enjoy your new replacement windows and watch the humidity levels in your home.

Rod Pierce
Director of Operations
ABC Seamless -- Toledo, Ohio

http://www.abc-siding.com/