Standard quadruple glazed window - openable The quadruple glazing, Q-Air, on Deg 8 building in Oslo, Norway (2020). Renovation brings U_g value of 0,29 W/(m²K) -value 20Quadruple glazing (quadruple-pane insulating glazing) is a type of

insulated glazing 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, ...

comprising four glass panes, commonly equipped with

low emissivity Low emissivity (low ''e'' or low thermal 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 c ...

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. Multipane glazing improves thermal comfort (by reducing downdraft convection currents adjacent to the windowpane), and it can reduce

greenhouse gas emissions Greenhouse gas emissions from human activities strengthen the greenhouse effect, contributing to climate change. Most is carbon dioxide from burning fossil fuels: coal, oil, and natural gas. The largest emitters include coal in China and ...

by minimising heating and cooling demand. Different administrative districts (country/state/city etc) mandate different energy-efficiency standards. Quadruple glazing may be required to achieve the desired energy efficiency levels in

arctic The Arctic ( or ) is a polar regions of Earth, polar region located at the northernmost part of Earth. The Arctic consists of the Arctic Ocean, adjacent seas, and parts of Canada (Yukon, Northwest Territories, Nunavut), Danish Realm (Greenla ...

regions, or to allow for higher glazing ratios in curtain walling without increasing winter heat loss. Quadruple glazing allows building glazing elements to be designed without modulated external sun-shading, given that the low

thermal transmittance Thermal transmittance is the rate of transfer of heat through matter. The thermal transmittance of a material (such as insulation or concrete) or an assembly (such as a wall or window) is expressed as a U-value. The thermal insulance of a struct ...

of having four or more glazing layers enables

solar gain Solar gain (also known as solar heat gain or passive solar gain) is the increase in thermal energy of a space, object or structure as it absorbs incident solar radiation. The amount of solar gain a space experiences is a function of the total in ...

to be adequately managed directly by the window glazing itself. In Nordic countries, some existing buildings with triple glazing are being upgraded to glazing with four or more layers.

Features

Cold downdraught analysis multipane glazing

With quadruple glazing, the center-of-panel

U-value 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 pe ...

(U_g) of 0,33 W/(m²K) -value 17is readily achievable. With six-pane glazing, a U_g value as low as 0,24 W/(m²K) -value 24was reported. This brings several advantages, such as: ; Energy efficient buildings without modulated sun shading: The desired overall window

value of lower than about 0,4 W/(m²K) is possible without having to depend on modulated external shading. A study by Svendsen et al. showed that at such low window U-values, glazing with moderate

performs comparably to glazing of comparable U-value with variable external shading and high solar gain. This is so because with improved overall U-values, a building's heating demand diminishes, to the point that wintertime solar heat gain alone may be enough to heat the building. ;Pronounced seasonal-dependence of the solar gain: Due to incidence-angle-dependent Fresnel reflections, the optical characteristics of multipane glazing, also notably vary seasonally. As the sun's average elevation varies throughout the year, the effective solar gain tends to be meaningfully less in the summer. The effect is also visible to an extent with a naked eye. ; Comfort for occupants: When compared to traditional double-pane or triple-pane windows with mechanical or structural shading arrangements, multipane glazing enables easier viewing between indoor and outdoor environments. A low U-value maintains inside glass temperatures at a more uniform level throughout the year. During the winter, downwards convection currents (downdrafts) are very small, thereby enabling people seated near such a multipane window to feel as comfortable adjacent to the window as they would feel if they were seated adjacent to a solid wall. Of course, occlusion or shading might still be wanted for purposes of privacy, for example. ; Nearly

zero heating building 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 ar ...

: Already in 1995, it was predicted that with a glazing U-value of 0,3 W/(m²K) zero-heating building could be attained. It has also recently been shown that the heating demand might be decreased to nearly zero for glazed buildings with system U-values as low as 0,3 W/(m²K). Theoretically, in the summer, the remaining cooling demand could be satisfied by photovoltaic generation alone, with the greatest need for cooling nearly coinciding with the strongest sunlight incident on solar panels. However, in practice, temporal lags between cooling demand and the output from solar panels could easily occur, due to factors such as ambient humidity and the need for dehumidification, as well as the thermal inertia of the building and its contents.

Engineering

Multipane glazing is often designed with thinner intermediate glass panes in order to save weight. To prevent intermediate panes from thermal stress cracking it is sometimes required to use heat-strengthened glass. With more than three glass panes, special care must be taken of the spacer and sealant temperatures as intermediate glass panes in contact with these glazing elements can readily exceed design temperature limits of respective materials due to

solar radiation Solar irradiance is the power per unit area ( surface power density) received from the Sun in the form of electromagnetic radiation in the wavelength range of the measuring instrument. Solar irradiance is measured in watts per square metre ...

(

irradiance In radiometry, irradiance is the radiant flux ''received'' by a ''surface'' per unit area. The SI unit of irradiance is the watt per square metre (W⋅m−2). The CGS unit erg per square centimetre per second (erg⋅cm−2⋅s−1) is often used ...

) heating. Angle-dependent view through the quad glazing from inside of the Deg 8 building in Oslo. Solar irradiance heating of intermediate glass panes increases substantially with an increased number of glass panes. Multipane glazing must be carefully designed to account for the expansion of the insulating gases that are placed between the glass layers, because such gaseous expansion becomes an increasingly important consideration as the number of glass panes is increased. Special breather vents, as well as small vents communicating between the layer spaces, can be incorporated in order to manage this glass-bulging effect. Finite element analysis is often used to calculate appropriate glass sheets' strengths.

References

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External links

quadruple glazing seasonal energy transmittance video

6-pane glazing destructive test video

Reflex - Q-Air multipane glazing

EN 1279:2018 Glass in building — Insulating glass unit

EN 16612:2019 Glass in building — Determination of the lateral load resistance of glass panes by calculation
Glass Building materials Energy efficiency Heat transfer Thermal protection Building insulation materials Low-energy building

Features

Engineering

See also

References

External links