University of South Florida and Duke Energy Partner on Solar Battery Development

University of South Florida and Duke Energy partner to make clean energy storage a reality
University of South Florida and Duke Energy partner to make clean energy storage a reality

Solar Battery Development – ( Solar Thermal Magazine)

The key to being able to make use of the energy resources of the wind and from the sun is being able to store energy when it is not needed so that it is available when it is needed. Once we have some cost effective solutions to energy storage be it as thermal energy, kinetic energy or electrical energy the battle over clean energy will be won.

In the US this week there is some encouraging news from one of the largest utilities in the country, namely Duke energy.

University of South Florida and Duke Energy partner to make clean energy storage a reality

University of South Florida and Duke Energy partner to make clean energy storage a reality

Duke Energy Florida and the University of South Florida St. Petersburg (USFSP) today unveiled a new solar battery project that will explore how to store and use energy from the sun. A $1 million grant from Duke Energy is funding the research at USFSP.

As part of the grant, a 100-kilowatt (kW) solar photovoltaic (PV) system has already been installed on the top of the university’s 5thAvenue South parking garage.

Project details for University of South Florida and Duke Energy Solar energy storage project

Project details for University of South Florida and Duke Energy Solar energy storage project

 

“This partnership gives Duke Energy and the University of South Florida additional firsthand experience in solar battery storage systems,” said Alex Glenn, state president, Duke Energy Florida. ”

The innovative and cutting-edge research also provides students a real-world learning environment as we develop alternative energy solutions for our customers.

Solar energy that is not used by the garage for lights, elevators and electric-vehicle charging stations is stored in battery systems or put onto the electric grid for immediate use. High-resolution data is being collected on the PV installation and on the energy storage system which is displayed on an online dashboard and several kiosks on campus.

The new larger energy storage system operates in conjunction with two smaller existing USF energy storage systems. This creates an opportunity to build upon existing battery technology while advancing clean energy solutions.

“This is an opportunity to manage energy costs, while promoting sustainability on campus,” said USFSP Regional Chancellor Sophia Wisniewska.

We are pleased and proud to have been awarded this grant, and to provide faculty and students with a chance to help build something of lasting impact. USFSP has long enjoyed a strong partnership with Duke Energy and we look forward to future collaborations.

The 100-kW solar array at USF St. Petersburg measures approximately 7,100 square feet, with 318 individual panels. It is a freestanding canopy with space beneath for parking. A solar array of this size can produce enough energy to power an electric car for half a million miles.

USFSP has an existing 2.0-kW solar energy system located at its Central Facilities Plant that was constructed in partnership with Duke Energy and the USF Tampa School of Engineering. Additionally, a series of solar panels provides power for decorative lights on campus.

Leader in battery storage technology

Duke Energy has several battery storage projects underway across the country.

  • Duke Energy Florida’s SEEDS (Sustainable Electrical Energy Delivery Systems) program, which includes two battery storage projects at the University of South Florida at St. Petersburg and the Albert Whitted Park, also in St. Petersburg. The two units combine energy storage systems with small solar arrays.
  • Twenty-four K-12 schools in the Duke Energy Florida service territory have received 25-kilowatt-hour battery backup systems funded by the company that are integrated with their solar PV installations. As with other battery storage projects at Duke Energy, there is performance monitoring of these systems to learn more about combining intermittent energy resources with storage. The installations also help foster educational opportunities for students at the schools.
  • The company’s Notrees Battery Storage Project in West Texas is North American’s largest battery storage installation project at a wind farm. Duke Energy matched a $22 million grant from the U.S. Department of Energy to install 36-megawatt (MW) large-scale batteries capable of storing electricity produced by its 153-MW Notrees wind farm.

USF St. Petersburg

The University of South Florida St. Petersburg (USFSP) is a separately accredited, research-active institution within the USF System. USFSP offers 23 undergraduate and 12 graduate programs in three colleges: Arts and Sciences, Business and Education. USFSP is recognized for its significant commitment to community involvement and civic engagement by the Carnegie Foundation for the Advancement of Teaching. For more information, visit usfsp.edu.

 

About Gordon Smith
Gordon's expertise in the area of industrial energy efficiency and alternative energy. He is an experienced electrical engineer with a Masters degree in Alternative Energy technology. He is the co-founder of several renewable energy media sites including Solar Thermal Magazine.

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