From pv magazine USA
In the IN2 NEXT project, PV-coated windows from NEXT Energy Technologies were tested against traditional commercial windows, tracking performance based on their respective solar heat gain coefficient (SHGC), an industry-standard performance metric for commercial windows. The results show that NEXT Energy’s technology could lower the SHGC from an otherwise equal window to below .20.
NEXT Energy is a Calif.-based company that is developing transparent energy harvesting window technology. The goal is to enable glass facades to be turned into producers of low-cost, on-site, renewable energy for buildings. NEXT Energy participated in a multi-year photovoltaic window project as part of the Wells Fargo Innovation Incubator (IN2), which measured the overall energy-efficiency performance of NEXT Energy transparent PV windows compared to traditional commercial windows.
Commercial buildings account for 36% of all US electricity consumption at a cost of more than $190 billion annually. Additionally, windows represent 30% of a commercial building’s heating and cooling energy, costing US building owners about $50 billion annually, according to DOE. Considering the potential savings, in addition to energy generation, lowering the SHGC to .20 is significant. SHGC measures the amount of heat, or solar gain, created by sunlight passively entering buildings through windows. Excessive solar gain can lead to overheating within a space and inefficient energy management throughout a building.
“These are extremely significant results for the energy efficiency of insulating glass. Achieving a SHGC below .20 while providing neutral aesthetics has been a monumental challenge for all of us that create vacuum deposition architectural coated glass. Balancing performance and appearance is the heart of ideal harmony and it appears NEXT has done just that,” said Garret Henson, vice president sales and marketing at Viracon, a manufacturer of architectural glass for commercial buildings in North America.
In making NEXT Energy’s windows, the PV technology is enabled by proprietary organic semiconducting materials that are earth-abundant and low-cost, the company reports. This material is coated uniformly onto glass as an ink in a high-speed, low-cost, low-energy process, enabling the glass to harvest the sun’s light and convert it into electricity rather than heat.
“The results of the collaboration with NEXT give us data on how to redefine ways architects and building owners measure the performance of commercial windows,” said Trish Cozart, program manager of IN2 and director of the Innovation and Entrepreneurship Center at NREL. “If you can generate substantial amounts of electricity with a building’s windows, it can mark a new chapter. Now, the goal is the evaluation of SHGC to account for impacts of power generation as well as solar heat gain.”
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