Renewable Energy

In addition to institutional efforts to reduce greenhouse gas emissions through energy conservation, Washington University is committed to pursuing renewable energy projects to demonstrate and test new technologies, as well as projects at larger scales when financially feasible.

2014 Solar Photovoltaic Project


Washington University is excited to announce the addition of 429 kilowatts (kw) of solar to university-owned property throughout the region. The solar arrays will increase WUSTL’s solar generating capacity from 33 kw to 462 kw. The new arrays represent Washington University’s first major investment in renewable energy. The solar arrays will produce an estimated 545,000 kilowatt hours each year, enough emission-free energy to power the electrical usage of 50 average U.S. homes. In addition, the arrays will save the University an estimated $190,000 over 10 years.

Based on the carbon intensity of grid electricity in Missouri, which is among the highest in the US, the solar arrays will reduce the university’s emissions by 445 metric tons of carbon dioxide equivalent per year. This is equal to the amount of carbon sequestered by 365 acres of US Forest per year.

Most of the solar arrays have been installed on flat roofs, including the Lofts of Washington University (75 kw), the School of Medicine (50kw), North Campus (75 kw), West Campus (75 kw), the Family Learning Center (25 kw), the 560 Music Building (25 kw) and the University City Children’s Center (50 kw). Project installation began in April 2014 and will continue through April 2015.

In addition to the roof-top arrays, Tyson Research Center has a 50 kw ground-mounted array adjacent to the headquarters building, and a 4 kw solar carport is installed over an electric vehicle (EV) charging station in front of Brauer Hall on the Danforth Campus. The solar carport is projected to generate the majority of electricity usage at the EV charger. The carport project, spearheaded by Dr. Pratim Biswas, will also be used in battery storage research by the Department of Energy, Environmental and Chemical Engineering, of which Dr. Biswas is the Chair.

Two WUSTL seniors, Rachel Goldstein and Tyler Loucky, were instrumental in helping to identify off-campus sites that would be feasible for photovoltaic rooftop systems. Read the official release in the Record to learn about Rachel and Tyler’s role in the project.

Many talented individuals at the university contributed their time and expertise to make the project a reality, including the treasurer’s office, the General Counsel’s office, resource management, facilities teams at the Danforth and School of Medicine campuses, financial planning, real estate, insurance and risk management, and Tyson Research Center.

Additional WUSTL Renewable Energy

The new arrays greatly expand upon previous solar installations, which include a 1kw array on Olin Library, an 8.6 kw array on Brauer Hall and a 23 kw array at Tyson Research Center’s Living Learning Center, one of the the first buildings in the world to achieve Living Building Challenge Certification. Solar thermal arrays were installed on the Lofts of Washington University buildings in summer 2014, heating 25% of the domestic hot water demand from the sun’s energy. In addition, WUSTL has seven 1kw wind turbines on the Corner Building, located at the NE corner of Skinker Boulevard and Delmar Boulevard on the Delmar Loop. WUSTL also captures spent fryer oil that is converted to biodiesel by Kelley Green Biofuel and then used to power three Dining Services delivery trucks.

Solar Project FAQs

Where will the energy be used?

Washington University will directly use the solar-generated electricity at each installation site, reducing the amount of energy each building will draw from the grid.

What percent of the University’s energy use will the panels supply?

The new solar arrays will generate an average of 15% of the energy use in the buildings where they are located. The percentage varies from 1% to 58% depending on the size and energy intensity of each building. Overall, the new arrays will provide less than 1% of Washington University’s total electricity use, if you include the usage of all campuses. Keep in mind, the new arrays will be located on a fraction of available roof space on an even smaller fraction of potential sites.

How much of the University’s energy use could be generated by on-site solar panels?

With current solar technology, the maximum on-site solar energy production for a densely located major teaching, research and patient care institution, like Washington University, assuming the the current level of energy use, may be less than 10%. In addition to adding more solar panels, the percentage of energy provided by solar can increase through reducing overall energy use through energy conservation projects. Washington University has a long track record and aggressive plan for reducing energy consumption through projects such as lighting retrofits, replacing old boilers and chillers with state-of-the art equipment, optimizing operations, and engaging our community members to adopt energy conserving behaviors. Energy is not an all-or-none proposition. Grid electricity in Missouri and throughout the US is created through a mixture of sources, including coal combustion, natural gas combustion, nuclear, wind, hydroelectric, and solar. Increases in both customer-owned and utility-owned renewable energy systems will result in decreased emissions of greenhouse gases and other pollutants.

How were the sites selected?

A series of factors were evaluated during the site selection process including roof size, roof age, shading, and building energy usage. One of the required factors was the presence of a dedicated utility account. A key piece of the project financing, the solar rebate administered by the electrical utility Ameren Missouri, was tied to each utility account and limited to $50,000 per account regardless of whether the account serves a single home, a small business or a campus. The Danforth Campus, consisting of over 60 major buildings, is serviced by a single Ameren account, significantly limiting the opportunity for inclusion of Danforth sites. Similar limitations applied at the School of Medicine.

Why are the projects in increments of 25 kilowatts?

Each account within Ameren Missouri’s territory was eligible to receive $2/watt of installed solar, up to a total of 25,000 watts or $50,000 of rebate per account. As a result, many Ameren customers, including Washington University, developed 25 kw projects, where possible, to access the available funding. A few WUSTL project sites, including North Campus, had multiple utility accounts, resulting in 50 kw or 75 kw arrays.

What partners were involved in the projects?

The solar projects were developed in partnership with Microgrid Solar and U.S. Bank (354 kw) and Brightergy (75 kw). Solar rebates from Ameren Missouri were an important component of the project financing. Installation was performed by electrical contractors Aschinger Electric, Kaemmerlen Electric, AVCO Electrical Services, and Schaeffer Electric.

How were the projects structured?

The solar projects were developed as solar leases, with 329 kw developed in partnership with Microgrid Solar and U.S. Bank and 75 kw developed in partnership with Brightergy. The companies own, install and maintain the arrays for the duration of the lease, with minimal up-front cost to the university. The lease structure is a common financing tool that non-profit organizations use to access federal renewable energy tax credits. Throughout Missouri, many K-12 school districts and other non-profit organizations have used this structure to finance solar projects.