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Cutting-Edge Windows that Can Be Tinted on Demand

The latest dynamic glazing from Sage Electrochromics allows variable tinting on demand

Posted on Apr 19 2012 by Alex Wilson

I've examined state-of-the-art windows and glazingWhen referring to windows or doors, the transparent or translucent layer that transmits light. High-performance glazing may include multiple layers of glass or plastic, low-e coatings, and low-conductivity gas fill. systems over the past four weeks. This week, I'll cover an innovative product that may help define the state-of-the-future: a dynamic glazing called SageGlass that can be tinted on demand. To understand what's so exciting about such a product, let's look at conventional high-performance windows.

When we select a window for a particular application we have to determine what performance properties will be best for that particular application — on average. In the winter and for daylightingUse of sunlight for daytime lighting needs. Daylighting strategies include solar orientation of windows as well as the use of skylights, clerestory windows, solar tubes, reflective surfaces, and interior glazing to allow light to move through a structure. in all seasons, we usually want to maximize sunlight transmission, while in summer and for certain windows at particular times of day we usually want to restrict solar gain to control glare or unwanted heat gainIncrease in the amount of heat in a space, including heat transferred from outside (in the form of solar radiation) and heat generated within by people, lights, mechanical systems, and other sources. See heat loss..

By carefully choosing the glazing, we can do a pretty good job at balancing those differing priorities--but it is always a matter of compromise. If we want to be able to vary the sunlight coming through a window we have historically had to rely on a separate system, such as an interior window blind or exterior shading system. In an office building, these systems can get pretty complex.

Enter dynamic glazings
With dynamic, or switchable, glazing, we can adjust the solar and visible transmittance properties of the glazing according to the conditions. Dynamic glazing can be passive, with tinting controlled by temperature (thermochromic) or by sunlight (photochromic), or they can be controlled by electricity (electrochromic). With the latter, tinting is actively managed by the user, though the process can be automated.

SageGlass, the electrochromic glazing made by Sage Electrochromics, is the only widely marketed dynamic glazing on the market today, and the company has made some significant advances since I last covered the product in this blog a few years ago.

SageGlass relies on a low-voltage electric current to tint the glazing. The company uses a sputtering process (like that used to produce soft-coat low-eLow-emissivity coating. Very thin metallic coating on glass or plastic window glazing that permits most of the sun’s short-wave (light) radiation to enter, while blocking up to 90% of the long-wave (heat) radiation. Low-e coatings boost a window’s R-value and reduce its U-factor. glazings) to coat a pane of glass with five extremely thin, highly specialized ceramic layers. These coatings are typically applied on the #2 surface (the inner surface of the outer pane of glass). When voltage is applied across these coatings, according to Sage, ions travel from one layer to another, prompting a reversible solid-state change that causes the coating to tint and absorb light. Reversing the polarity of the applied voltage causes the ions to migrate back to their original layer, returning the glass to its clear state.

The electrochromic coating in SageGlass is also a low-e coatingVery thin metallic coating on glass or plastic window glazing that reduces heat loss through the window; the coating emits less radiant energy (heat radiation), which makes it, in effect, reflective to that heat; boosts a window’s R-value and reduces its U-factor. , so whether or not the tinting is employed, heat loss through the window is reduced, as it is with other low-e glazings. The electric current needed to tint the glass is very small (about 0.3 watts per square foot of glass), and even less current (0.1 watt/square foot) is required to maintain the tinted state. When the current is turned off, it reverts to the normal, clear, state.

This level of electricity consumption is quickly paid for by reduced cooling loads when the tinting is deployed — at least in commercial buildings, where SageGlass is most commonly used.

I had an opportunity to talk with the Sage Electrochromics CEO, John Van Dine, recently, and learned about some exciting innovations. The biggest recent development is the ability to set intermediate levels of tinting. When SageGlass first came out, it was either in its clear or tinted state, with solar transmittance of 62% and 3.5%, respectively (assuming the coating is on standard clear glass in an insulating glass unit or IGU).

Now, when this variable tinting option is included (for an upcharge), SageGlass can be "programmed" with two intermediate tinting levels. This provides much greater flexibility for the user, since the fully tinted state is darker than what most users would want. One of the intermediate tinting levels is typically set at 15-20% visible light transmission and the other at 35-40%.

An advance that is being actively worked on but is not yet available with SageGlass is powering the tinting using photovoltaic(PV) Generation of electricity directly from sunlight. A photovoltaic cell has no moving parts; electrons are energized by sunlight and result in current flow. (PVPhotovoltaics. Generation of electricity directly from sunlight. A photovoltaic (PV) cell has no moving parts; electrons are energized by sunlight and result in current flow.) electricity. With this feature, the installation may be simpler if the power system is integrated into the glass or frames somehow. We'll have to see how that feature evolves.

A new factory
Sage Electrochromics has a new factory nearing completion this month, though it will take several months to fully commission the manufacturing equipment. SageGlass production will be significantly automated, and much larger IGSs, up to five feet by ten feet, will be able to be produced.

While the automation in the new plant should eventually bring prices down (SageGlass is not an inexpensive product!), Van Dine cautioned that "you will not see a big price reduction initially." Because of the customization with most glass orders, pricing is heavily dependent on the volume of SageGlass needed for a project, the number of different glazing sizes in the order, special shapes, laminated and other specialty glass needs, the number of control zones, and what degree of control functionality is needed. While the company is reluctant to mention specific costs, given these variables, I gather that, for a typical project, incorporating SageGlass into IGUs will add about $50 per square foot, but for small projects the cost can be significantly higher.

Van Dine emphasizes that SageGlass offers not just glazing, but an entire solution to fenestrationTechnically, any transparent or translucent material plus any sash, frame, mullion, or divider attached to it, including windows, skylights, glass doors, and curtain walls. control. It can replace both exterior shading systems and interior blinds — which in commercial buildings can be very pricey. When the SageGlass system is compared with these multiple systems (glazing plus separate glazing attachments), SageGlass can be quite cost-competitive.

The company has partnerships with more than a dozen manufacturers of commercial glazing systems, residential windows, and skylights. Residential windows and skylights that can now be ordered with SageGlass include Marvin, H Window, and Wasco Skylights.

To date, SageGlass has been installed in hundreds of projects, but it plays a major role in the overall lighting control in significantly fewer. The product is extensively used in a new 300,000 square-foot Siemens wind-turbine facility that has just been built in Hutchinson, Kansas. During the design of that facility, the SageGlass option came out less expensive than two other sunlight control strategies that were evaluated and more expensive than a third--which was a very simple shading system.

Sage Electrochromics is located in Faribault, Minnesota, about 40 minutes outside of Minneapolis. Several years ago, Saint Gobain, the world's largest building products company, invested in the company and is now a majority owner.

Alex is founder of BuildingGreen, Inc. and executive editor of Environmental Building News. Watch for a forthcoming BuildingGreen special report on windows. To keep up with his latest articles and musings, you can sign up for his Twitter feed.


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  1. Sage Electrochromics
1.
Thu, 04/26/2012 - 14:57

Electrochromic Windows
by Bill Burke

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Photos like the one in the article above showing the atrium at Kent State leave me confused. It seems the designer overglazed the building and then solved that self-created problem with technology. Wouldn't it have made more sense to have an appropriate percentage of roof area devoted to skylights to achieve high daylight levels without building an all-glass roof? I'm not knocking Sage or electrochromic windows. I'm frustrated by how poorly designers use good products.


2.
Tue, 05/15/2012 - 22:45

Wow
by Matt Edwards

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I really look forward to seeing this product evolve. When they integrate pv, it will be an easy choice for most homeowners. Automatic tinting windows just sound nice too.


3.
Wed, 12/19/2012 - 10:40

Applications of SageGlass
by Norman Moore

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In many areas of the US, including California where I am, the heating demands of a passive solar home in the spring and in the fall can be drastically different though the insolation is the same. Previously to control overheating in our hot falls via an automated system would have been done with automatically controlled blinds. This has the disadvantage of altering or eliminating the view out of the windows and is typically very pricey with lots of components that can fail or require maintenance. SageGlass allows for different control strategies, for both temperature and glare, using a simple 5 VDC circuit and no moving parts. You could easily setup zones and methods of control using an Arduino board.


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