Low-emissivity (low-e) glasses are critical to making today’s buildings brighter, more energy-efficient and more sustainable. By controlling solar heat gain and promoting daylighting, they help buildings use less energy for temperature control and lighting, while adding the human benefits associated with outdoor views and more pleasant working and living environments.
Here are five tips to help architects, engineers, and contractors understand and explain the differences among low-e glasses and their impact on building performance:
1. E = Emissivity. Emissivity refers to the relative ability of a material’s surface to radiate energy. Low-e glass has a microscopically thin coating that lowers the emissivity of the glass surface and is engineered to transmit energy from the visible light portion of the solar spectrum (between 380 and 780 nanometers), while reflecting energy from ultraviolet light (310 to 380 nanometers), which causes fading, and infrared light (above 780 nanometers), which makes buildings warmer.
2. Think of a thermos. A thermos works by using a silver lining to continuously reflect and maintain the temperature of the drink it contains. Low-e glasses function according to the same principal, using multiple layers of silver or other low-emissivity materials in the coating to keep heat inside a building or prevent it from entering. Similarly, thermoses and insulating glass units (IGUs) are both designed with air spaces that provide a layer of insulation between the inside and outside.
CLICK IMAGE TO ENLARGE
3. More slivers of silver. Low-e coatings incorporate multiple layers of silver (or other low- emissivity materials) to control the transmission and reflection of heat and light. Recent technical advances now enable glass manufacturers to deposit up to three layers of silver on the glass substrate, which has enhanced the solar control capability of low-e glasses without diminishing their ability to transmit light.
4. Passive for insulation. Passive low-e glasses are usually made using the pyrolitic process, which means the coating is applied while the molten glass ribbon is still on the float line. This produces a “hard” coat that is fused to the glass surface and highly durable, but which has a higher emissivity that a solar-control low-e glass. Passive low-e glasses have decent insulating capabilities, but because of the limitations of metal deposition on the float line, they permit more solar infrared energy (heat) to pass through their coatings and become trapped inside the building. Consequently, passive low-e glasses are often the best choice for cold, heating-dominated climates.
5. Solar control to reduce heat gain. Coatings for solar control, low-e glasses are applied to pre-cut sheets of glass in a vacuum chamber at room temperature. This gives glass manufacturers the ability to deposit more sophisticated coatings (with multiple layers of silver) on the glass substrate, which improves solar control of the infrared (heat) portion of the solar spectrum without substantially diminishing the transmittance of visible light. These coatings are the best choice for hot, cooling-dominated (and moderate) climates. The lower emissivity of solar control low-e glasses also provides better insulating values to maintain the interior temperatures.
To learn more about low-e glass and other topics related to designing, specifying and building with glass, visit the PPG Glass Education Center at http://educationcenter.ppg.
Related Stories
| May 9, 2012
Stoddert Elementary School in DC wins first US DOE Green Ribbon School Award
Sustainable materials, operational efficiency, and student engagement create high-performance, healthy environment for life-long learning.
| May 9, 2012
Shepley Bulfinch given IIDA Design award for Woodruff Library?
The design challenges included creating an entry sequence to orient patrons and highlight services; establishing a sense of identity visible from the exterior; and providing a flexible extended-hours access for part of the learning commons.
| May 9, 2012
Construction Defect Symposium will examine strategies for reducing litigation costs
July event in Key West will target decision makers in the insurance and construction industries.
| May 8, 2012
WDMA and AAMA release window, door & skylight market studies
Historic data for 2006 through 2011 and forecast data for 2012 through 2015 are included in the report.
| May 8, 2012
Study presents snapshot of domestic violence shelter services
Unique partnership of architects and domestic violence advocates brings new strategies for emergency housing.
| May 8, 2012
Gensler & J.C. Anderson team for pro bono high school project in Chicago
City Year representatives came to Gensler for their assistance in the transformation of the organization’s offices within Orr Academy High School, which also serve as an academic and social gathering space for students and corps members.
| May 8, 2012
Skanska USA hires Zamrowski as senior project manager
In his new role at Skanska, Zamrowski will serve as the day-to-day on-site contact for select Pennsylvania-based projects during all phases of construction.
| May 8, 2012
Morgan/Harbour completes three projects at Columbia Centre
Projects completed on behalf of property owner, White Oak Realty Partners, LLC, Pearlmark Realty Partners, LLC and Angelo Gordon & Co.
| May 7, 2012
4 more trends in higher-education facilities
Our series on college buildings continues with a look at new classroom designs, flexible space, collaboration areas, and the evolving role of the university library.
