Cornell Researchers Aim to Unleash 'Smart Meter' Potential

Grant from National Science Foundation to test and optimize new residential electric storage systems

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By Blaine Friedlander via Cornell Chronicle, 9/7/16

Striving for a future with smaller electric bills, reduced greenhouse gas emissions and diminished need for power plants, Cornell researchers will use a $1 million grant from the National Science Foundation to create, test and optimize new residential electric storage systems.

“Smart meters – which measure and manage residential electricity in real time – already have been installed in about 40 percent of homes in the United States, but have yet to meet the pledge of smaller electric bills and engage consumers,” said Todd Cowen, professor of civil and environmental engineering, and principal investigator for the project. Cowen is also the Kathy Dwyer Marble and Curt Marble Faculty Director for Energy at Cornell’s David R. Atkinson Center for a Sustainable Future.

Todd Cowen, professor of civil and environmental engineering, and principal investigator for the project.
Prof. Todd Cowen

Announced Aug. 29, the NSF grant, titled “Energy Smart Community - Leveraging Virtual Storage to Turn Advanced Metering Infrastructure Into a Smart Service System,” seeks to bolster grid flexibility, integrate distributed renewable energy sources and reduce household electricity costs.

“While we already have a large number of homes in the U.S. with smart meters, these homes lack storage capacity that pair with them. This stands as a barrier to developing a truly efficient retail electricity market,” said Cowen. “Smart metering has been driven by utilities and government incentives, but consumers were absent from the process. This grant corrects that, so consumers are engaged in the processes, and we as a society can make great strides in improving the environment.”

The project will test whether adding rechargeable batteries (electric residential storage) to individual residential smart meters can produce significant benefits.

“Ideally, we’re looking to help homes create a reservoir of energy, so that when electricity prices are low, the smart meters will automatically charge their batteries with the cheaper energy to use at a later time,” Cowen said.

“While we’re trying help consumers, this can create potential business opportunities, such as electric storage providers, smart-system service software and residential-sector financing, not to mention creating an infrastructure for the emerging retail energy market,” he said.

The grant is funded through the NSF’s Partnerships for Innovation: Building Innovation Capacity program, which supports university-industry partnerships that lead to transformational societal benefits. Cowen leveraged the energy industry’s focus on New York state and its Reforming the Energy Vision (REV) to collaborate with AVANGRID, BMW North America, SolarCity and Distributed Sun.

Joining Cowen on the grant as co-principal investigators are Richard Stedman, professor of natural resources; Robert Thomas, professor of electrical and computer engineering; William Schulze, the Robinson Professor in Applied Economics and Management; and Ricardo Daziano, the David Croll Fellow Assistant Professor in civil and environmental engineering.

Other faculty members affiliated with the grant: Eilyan Bitar, assistant professor of electrical and computer engineering; Tim Mount, professor of applied economics and management; Richard Schuler, professor emeritus in civil and environmental engineering and economics; and Susan Fussell, professor in communication and information science.

Cornell partners include the David R. Atkinson Center for a Sustainable Future and Cornell Cooperative Extension of Tompkins County.

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