Shared-use facility is home to Kentucky-Argonne Battery Manufacturing Research & Development Center
More photos at the bottom of the story.
LEXINGTON, Ky. (Aug. 15, 2012) – Energy research became more energy efficient today as the University of Kentucky opened its newest energy research building — a living laboratory, devoted to renewable energy and energy storage. The $20.8 million laboratory building will allow UK to expand research devoted to Kentucky’s growing renewable energy industries, including biomass and biofuels, electrochemical power sources (like capacitors and batteries), and distributed solar energy technologies.
The 43,000 s.f.-building is part of the UK Center for Applied Energy Research, located off Iron Works Pike in northern Fayette County.
In addition to housing non-fossil fuel research, the building is home to the Kentucky-Argonne Battery Manufacturing Research & Development Center laboratories, jointly affiliated with the commonwealth of Kentucky, the Argonne National Laboratory in Chicago, the University of Kentucky and the University of Louisville. This is a shared-use facility, with portions of the laboratory purposely designed and specially equipped to accommodate capacitor and battery manufacturing research and development.
The Kentucky-Argonne Battery Manufacturing Research and Development Center is an advanced “open access” battery manufacturing R&D facility. “Open access” enables industrial users to contract to use the lab space and equipment, or contract to have the center’s experts conduct research for them, all while protecting the intellectual property rights of the industrial partner.
The facility will help researchers study and develop a wide range of energy-related technologies. From solar energy and biofuels, to advanced electrochemical power supplies (capacitors and batteries), the research will play a significant role in advancing the future energy and economic security of the United States.
A ‘green’ building
Beshear said it makes sense for all buildings to be energy-efficient, not just those devoted to energy research.
“Smart energy usage in buildings saves money and resources,” he said. “Most importantly, the people inside this building are performing critical work in advanced energy research. Their efforts will undoubtedly impact Kentucky’s future in energy innovation.”
His remarks were echoed by Stella Fiotes, chief facilities management officer of the National Institute of Standards and Technology (NIST), which provided the majority of funding.
“We’re excited to see this new laboratory open and begin hosting research into renewable energy and energy storage,” she said. “This work will complement NIST’s measurement research in support of clean technologies and energy efficiency.”
Today, the building itself is the star of the show.
“Our target was at least a 50 percent reduction in energy usage compared to similar facilities. The final percentage is 54. It is targeted to be LEED gold certified,” said CAER director Rodney Andrews.
The energy reduction is accomplished by energy-saving features throughout the building, including an exterior and roof with twice the amount of insulation normally used. Windows contain a nanogel material that diffuses sunlight and provides the same insulation as brick walls. Among other features are geothermal heating and cooling, occupancy sensors that turn off lights automatically when a space isn’t being used, and a ventilation system that recaptures energy.
The facility was funded by a competitive grant from the U.S. Department of Commerce’s National Institute of Standards and Technology under the American Recovery and Reinvestment Act’s (ARRA) NIST Construction Grant Program. The award consisted of $11.8 million in federal funds, with matching resources of $3.5 million provided by the state and $1.9 million from UK. An additional award of $3.5 million in state ARRA funds was provided by the Department of Energy Development and Independence to achieve LEED certification and insure that this new laboratory is a model for energy efficiency and renewable energy technologies.
This funding has enabled UK to develop unique labs including a dry room designed for battery manufacturing and testing, an open-access biofuels research lab, and state-of-the-art solar research facilities. The entire second floor is devoted to research performed by UK Department of Chemistry Professor John Anthony’s group, whose work includes organic thin-film transistors (for flexible flat-panel displays), organic solar cells (for low-cost electricity generation) and organic light-emitting diodes (for high-efficiency lighting).
“For nearly 150 years, the University of Kentucky has been an engine for growth in the commonwealth of Kentucky — transforming lives through education, research and service,” said UK President Eli Capilouto. “Today we are taking another major step forward in advancing our century-and-a-half old promise. The research and creative discoveries developed by our world-class engineers at UK’s Center for Applied Energy Research and in the cutting-edge laboratories in this new facility will bolster an essential industry and energize our commonwealth’s economy.”
Argonne Director Eric Isaacs stressed the importance of the new facilities in bridging the gap between research and commercialization.
“It’s not enough to invent a better battery,” he said. “We need to continue to revitalize our domestic battery industry by building tomorrow’s batteries here in America. This Center in Kentucky is specifically designed to focus on developing and deploying advanced manufacturing processes for batteries and other types of energy storage devices to build America’s battery industry.”
One company that has already located nearby for this reason is nGimat Co., based in Atlanta, which opened a facility in Lexington to better access the Kentucky-Argonne Center’s expertise and resources. The company is developing advanced lithium titanate energy storage materials for use in next-generation automotive batteries.