Heat loss through windows accounts for about 25% to 30% of your home’s heating and cooling energy consumption. With the projected rise in electricity prices, you should identify causes of energy loss in your home and correct them. If you haven’t optimized your windows to prevent energy loss, you might experience a surge in your electricity bill.

For your home improvement project, consider an upgrade to more energy-efficient windows. More modern window systems reduce heat loss and gain and lower energy use in the house. Learn about some tips to help you find the most energy-efficient windows.

1. Consider the Glass Type

To compare window glass products, consider the thickness, type, and style of the product. Double-pane glasses offer better insulation qualities and reduce energy use in your home.

Another energy-efficient window glass option is the low-emissivity, or low-E, glass. The product has a special coat that blocks infrared rays to keep your indoors cool and reduce your home’s cooling bill.

2. Review the Frame Material

The frame is a crucial, although often overlooked, component of a window system. The frame holds the glass and can influence your window’s energy efficiency. Different window materials have different insulation qualities that determine the efficiency of your window. Common window frame materials on the market are:

  • Vinyl. A multi-chambered vinyl frame reduces heat loss through your windows to lower your heating and cooling bill.
  • Wood. Wooden window frames have low conductivity and transfer minimal heat or draft in or out of your home.
  • Fiberglass. The material offers similar insulation qualities to wood.
  • Aluminum. Aluminum is a good heat conductor, and window frames made from this material will allow heat loss or heat gain and increase your electricity bill.

Before you choose any product for your window installation project, review the energy efficiency of the window frame material from the supplier.

3. Assess the Product’s Energy Rating

Some window types have received high energy-efficiency ratings from independent regulators. Discover some window types you should consider for enhanced energy efficiency in your house:

  • Energy-efficiency rated windows. Windows products with reputable energy efficiency labels have undergone stringent tests to meet specific energy-efficiency performance standards.
  • Fixed windows. A fixed window has an airtight seal to eliminate heat transfer.
  • Hinged window systems. Hinged windows such as hopper, awning, and casement windows are more airtight compared to single- or double-hung windows.
  • Insulated window systems. Insulated windows feature multiple panes and insulating gas between the glass panes to improve energy efficiency.

Talk to your window contractor about different window types for enhanced energy efficiency to find the most suitable product for your home.

4. Consider the Quality of Workmanship

Poor window installation lowers a window’s energy efficiency because of gaps and spaces that allow heat loss or gain. For your window installation project, use an experienced window contractor in your area and premium products.

Professional window installation saves you a lot of money in the long run through energy savings. The window expert ensures your energy-efficient frame and glass are airtight to perform their role effectively. The window expert can recommend additional insulation foam to seal any gaps and spaces around the window frame. 

Heat loss in cold weather and heat gain in hot weather strain your home’s HVAC unit and cause higher electricity consumption. An energy-efficient window system eliminates heat transfer through gaps or the window materials to lower your energy bill.

For your home renovations in Pittsgrove, NJ, and South Jersey, our team at Archer Exteriors is ready to help you choose durable and energy-efficient materials. We’re a leading family-owned NJ home improvement team, and our guarantee is to deliver beyond your expectations. Contact us today for a free quote, and let’s give your home a deserved makeover.