Window insulation

Last updated March 27, 2024

Window insulation reduces heat transfer from one side of a window to the other. The U-value is used to refer to the amount of heat that can pass through a window, called thermal transmittance, with a lower score being better.^[1] The U-factor of a window can often be found on the rating label of the window.

Energy Efficient Technologies

Below is a list of technologies that decrease heat transfer in windows:

Double- and triple-glazed windows

Clear single glass has a U-factor around 5.7 W/(m²⋅K) or 1 Btu/(h⋅ft²⋅°F) (R-1)
Clear double glazing has a U-factor between 1.8 and 3 W/(m²⋅K) or between 0.3 and 0.5 Btu/(h⋅ft²⋅°F) (about R-2)
Clear triple glazing has a U-factor between 0.5 and 1 W/(m²⋅K) or between 0.1 and 0.2 Btu/(h⋅ft²⋅°F) (about R-3).

Double and triple glazing are critical for energy efficiency. Single glass windows are no longer in general use.

The insulation provided by double or triple glazing can be further improved by selecting windows with low-e coatings, thermal breaks and argon or other similar gas between the panes, and also by selecting windows with high energy-efficient frames.

Low-e coatings

Modern double, triple and quadruple-glazed windows have thin, metallic low-e coatings on the panes, which can significantly improve their thermal insulating performance.

Another area where low-e coatings are used is thermal barriers. Some thermal barriers (like Insulbar LEF) decrease thermal losses due to radiation through a low-e folio applied to the thermal insulation profile.^{[ jargon ]}

Thermal insulation profiles

To reduce heat flow and the U-factor, metal frames should have an insulating plastic profile placed between the inside and outside of the frame and sash. These profiles are called thermal breaks and are made from glass fibre reinforced polyamide 6,6. The proportion of glass fibre in the profiles is 25%. The material used for this insulating bar stands out for its low thermal conductivity value (0.30 W/m2K) and its good mechanical properties even at higher temperatures.

A non-thermally-separated frame from an aluminum window has a thermal transmission coefficient of 6.8 W/m2K. If the system is thermally separated with an insulating profile with a width of 42 mm, the thermal transmission coefficient can be reduced to 1.3 W/m2K.

Insulbar LO, a product introduced by Ensinger, is a lambda (thermal conductivity) optimized solution for thermal insulation profiles. Its lambda value is only 0.18 W/m2K.

Warm edge spacers

Most modern windows use glazing spacers to keep the distance between their panes for sealing purposes. Many of these spacers are made from aluminum, which is a very conductive material. There is a better alternative for higher insulation performance: special plastic spacers, generally referred to as 'warm-edge spacers'.

Inert gas fills

Double and triple-glazed windows also have argon, krypton, or other inert gases between their panes. It is another key element for a better thermal insulation.

Most windows use argon (which is cheaper), but krypton is a better choice of insulation when the distance between the panes has to be smaller (the distance has to be about 13 mm (1⁄2 inch) for argon, and about 9 mm (3⁄8 inch) for krypton; increasing or decreasing the space will degrade performance).

Specialized Window frames

The type of window frame and the insulation of its cavity are critical for energy-efficiency and thermal performance (and for strength, durability and maintenance).

Aluminum frames are excellent for strength, durability and maintenance but they are a poor choice for thermal insulation. Aluminum is an extremely conductive material. Therefore, thermal insulation profiles are used to create a thermal separation of the inner and outer shells of metal frames. The variety of thermal insulation profiles (Insulbar) allows low U_f values (for example 1.3 W/m²K by using a 34mm insulation profile and up to 1.1 W/m²K with contemporary aluminum systems) to be reached. Polyamide insulation profiles with 25% glass fibre content are the best commercially available choice for optimum heat insulation and mechanical properties.

Wood frame windows provide better insulation, but they are a poor choice for durability or maintenance (unless you choose wood-clad windows).

Vinyl and fiberglass are better insulation and noise reduction materials. Certain windows have vinyl or fiberglass frames that feature chambers, to further enhance insulation and noise reduction.^[4]

High insulation-performance windows

Energy-efficient houses in cold climates often feature triple-glazed windows with a U-value between 0.19 and 0.26. In moderate and hot climates, quality double-glazed windows with a U-value of about 0.30 are generally a more cost-competitive and effective choice.^[5]

Other ways of improving the insulation of a window

Using glass with heat reflective properties
Sticking on thermal reflective plastic
Double glazing using heat-shrink plastic film and double sided tape

The frame used can also be significant, especially if they are made from a high thermal conductivity material such as metal. In this case, plastic spacers should be used to create thermal breaks between the inner and outer sections of the frame.

Related Research Articles

A window is an opening in a wall, door, roof, or vehicle that allows the exchange of light and may also allow the passage of sound and sometimes air. Modern windows are usually glazed or covered in some other transparent or translucent material, a sash set in a frame in the opening; the sash and frame are also referred to as a window. Many glazed windows may be opened, to allow ventilation, or closed, to exclude inclement weather. Windows may have a latch or similar mechanism to lock the window shut or to hold it open by various amounts.

In passive solar building design, windows, walls, and floors are made to collect, store, reflect, and distribute solar energy, in the form of heat in the winter and reject solar heat in the summer. This is called passive solar design because, unlike active solar heating systems, it does not involve the use of mechanical and electrical devices.

Thermal insulation is the reduction of heat transfer between objects in thermal contact or in range of radiative influence. Thermal insulation can be achieved with specially engineered methods or processes, as well as with suitable object shapes and materials.

In the context of construction, the R-value is a measure of how well a two-dimensional barrier, such as a layer of insulation, a window or a complete wall or ceiling, resists the conductive flow of heat. R-value is the temperature difference per unit of heat flux needed to sustain one unit of heat flux between the warmer surface and colder surface of a barrier under steady-state conditions. The measure is therefore equally relevant for lowering energy bills for heating in the winter, for cooling in the summer, and for general comfort.

A structural insulated panel, or structural insulating panel, (SIP), is a form of sandwich panel used in the construction industry.

A curtain wall is an exterior covering of a building in which the outer walls are non-structural, instead serving to protect the interior of the building from the elements. Because the curtain wall façade carries no structural load beyond its own dead load weight, it can be made of lightweight materials. The wall transfers lateral wind loads upon it to the main building structure through connections at floors or columns of the building.

A vacuum insulated panel (VIP) is a form of thermal insulation consisting of a gas-tight enclosure surrounding a rigid core, from which the air has been evacuated. It is used in building construction, refrigeration units, and insulated shipping containers to provide better insulation performance than conventional insulation materials.

Low emissivity refers to a surface condition that emits low levels of radiant thermal (heat) energy. All materials absorb, reflect, and emit radiant energy according to Planck's law but here, the primary concern is a special wavelength interval of radiant energy, namely thermal radiation of materials. In common use, especially building applications, the temperature range of approximately -40 to +80 degrees Celsius is the focus, but in aerospace and industrial process engineering, much broader ranges are of practical concern.

Storm windows are windows that are mounted outside or inside of the main glass windows of a house. Storm windows exist in North America, but are uncommon in continental Europe, where double, triple or quadruple glazing is prevalent. Storm windows can be made of glass, rigid plastic panels, or flexible plastic sheets; and may be permanently or temporarily mounted. They function similarly to insulated glazing. The term may also refer to a small openable flap found in the side window on light aircraft.

Thermal transmittance is the rate of transfer of heat through matter. The thermal transmittance of a material or an assembly is expressed as a U-value. The thermal insulance of a structure is the reciprocal of its thermal transmittance.

Building insulation is material used in a building to reduce the flow of thermal energy. While the majority of insulation in buildings is for thermal purposes, the term also applies to acoustic insulation, fire insulation, and impact insulation. Often an insulation material will be chosen for its ability to perform several of these functions at once.

<span class="mw-page-title-main">Building insulation material</span>

Building insulation materials are the building materials that form the thermal envelope of a building or otherwise reduce heat transfer.

A thermal bridge, also called a cold bridge, heat bridge, or thermal bypass, is an area or component of an object which has higher thermal conductivity than the surrounding materials, creating a path of least resistance for heat transfer. Thermal bridges result in an overall reduction in thermal resistance of the object. The term is frequently discussed in the context of a building's thermal envelope where thermal bridges result in heat transfer into or out of conditioned space.

Window insulation film is a plastic film which can be applied to glass windows to reduce heat transfer. There are two types in common use designed to reduce heat flow via radiation and convection respectively.

<span class="mw-page-title-main">Glazing (window)</span> Part of a wall or window, made of glass

Glazing, which derives from the Middle English for 'glass', is a part of a wall or window, made of glass. Glazing also describes the work done by a professional "glazier". Glazing is also less commonly used to describe the insertion of ophthalmic lenses into an eyeglass frame.

Insulating glass (IG) consists of two or more glass window panes separated by a space to reduce heat transfer across a part of the building envelope. A window with insulating glass is commonly known as double glazing or a double-paned window, triple glazing or a triple-paned window, or quadruple glazing or a quadruple-paned window, depending upon how many panes of glass are used in its construction.

Dynamic insulation is a form of insulation where cool outside air flowing through the thermal insulation in the envelope of a building will pick up heat from the insulation fibres. Buildings can be designed to exploit this to reduce the transmission heat loss (U-value) and to provide pre-warmed, draft free air to interior spaces. This is known as dynamic insulation since the U-value is no longer constant for a given wall or roof construction but varies with the speed of the air flowing through the insulation. Dynamic insulation is different from breathing walls. The positive aspects of dynamic insulation need to be weighed against the more conventional approach to building design which is to create an airtight envelope and provide appropriate ventilation using either natural ventilation or mechanical ventilation with heat recovery. The air-tight approach to building envelope design, unlike dynamic insulation, results in a building envelope that provides a consistent performance in terms of heat loss and risk of interstitial condensation that is independent of wind speed and direction. Under certain wind conditions a dynamically insulated building can have a higher heat transmission loss than an air-tight building with the same thickness of insulation. Often the air enters at about 15 °C.

A skylight is a light-permitting structure or window, usually made of transparent or translucent glass, that forms all or part of the roof space of a building for daylighting and ventilation purposes.

<span class="mw-page-title-main">Quadruple glazing</span> Type of insulated glazing

Quadruple glazing is a type of insulated glazing comprising four glass panes, commonly equipped with low emissivity coating and insulating gases in the cavities between the glass panes. Quadruple glazing is a subset of multipane (multilayer) glazing systems. Multipane glazing with up to six panes is commercially available.

Zero-heating building or nearly zero-heating building (nZHB) is a building having essentially zero heating demand, defined as having heating demand, Q’_NH, less than 3 kWh/(m²a). The zero-heating building is intended for use in heating-dominated areas. The purpose of the zero-heating building is to supersede net-zero energy buildings as a way to bring building-related greenhouse gas emissions to zero in the EU. Zero-heating buildings address flawed net-zero energy buildings: the requirement for seasonal energy storage, in some cases poor comfort of living and narrow design options.

References

↑ "Energy efficient windows". Energy.gov
↑ Holladay, Martin. "Metric and Imperial". Green Building Advisor. Retrieved 25 March 2019.
↑ "How can I convert an imperial U-factor to a metric U-factor?".
↑ "Energy – Efficient Windows". KJW. Retrieved 29 May 2015. Two of the more energy efficient frame materials are vinyl and fiberglass. They do a particularly good job of reducing heat transfer and contributing to insulation value. Your ultimate decision on which of these to use may be based on aesthetics and cost. In making your selection, be sure to look for vinyl or fiberglass frames that have been specifically engineered for performance. For instance, both can be designed with chambers within the frame that enhance strength, noise reduction and insulation value.
↑ "Window energy ratings" Archived 2015-03-17 at the Wayback Machine . National Fenestration Rating Organization

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[1] "Energy efficient windows". Energy.gov

[2] Holladay, Martin. "Metric and Imperial". Green Building Advisor. Retrieved 25 March 2019.

[3] "How can I convert an imperial U-factor to a metric U-factor?".

[4] "Energy – Efficient Windows". KJW. Retrieved 29 May 2015. Two of the more energy efficient frame materials are vinyl and fiberglass. They do a particularly good job of reducing heat transfer and contributing to insulation value. Your ultimate decision on which of these to use may be based on aesthetics and cost. In making your selection, be sure to look for vinyl or fiberglass frames that have been specifically engineered for performance. For instance, both can be designed with chambers within the frame that enhance strength, noise reduction and insulation value.

[5] "Window energy ratings" Archived 2015-03-17 at the Wayback Machine . National Fenestration Rating Organization

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