Bowdoin Steps Forward on Renewable Energy Plan

By Rebecca Goldfine
Two large energy projects Bowdoin has been pursuing this year will get the College to its goal of offsetting 100 percent of its electricity with Maine-based renewable energy.
CES Managing Director of Renewables Matt Gamache ’13 and Associate Director of Sustainable Bowdoin Keisha Payson.
CES Managing Director of Renewables Matt Gamache ’13 and Associate Director of Sustainable Bowdoin Keisha Payson worked on Bowdoin's participation in the groundbreaking consortium.

Solar Savings: The CES Maine Distributed Generation Consortium

 

While Bowdoin has been carbon neutral since 2018, the College has recently been offsetting campus emissions with wind power from Texas.  But its intention has always been to offset its emissions with local renewable energy, so it has been exploring Maine options ever since.

Now Keisha Payson, who heads Bowdoin Sustainability, said she's excited to provide details on one of these Maine-based projects. Meanwhile, a second big project is going through the final planning stages.

The news is that Bowdoin has joined a Maine consortium (made up of 23 schools, towns, and businesses) that has signed long-term energy contracts with 33 new renewable projects in the state. In return, the College can expect a savings on future electricity bills while it retains the environmental RECs, or renewable energy credits.

The CES Maine Distributed Generation Consortium was made possible by the expansion of Maine's net energy billing program in 2019. The program is meant to spur the development of renewable energy.

"It's an incentive," Payson said. "Maine has passed legislation that increases the state’s renewable portfolio standard, requiring 80 percent renewable energy on our grid by 2030, with an even more ambitious goal of 100 percent renewable energy by 2050. The net energy billing program is a great incentive to help get us there."

Portland energy consultancy Competitive Energy Services (CES), helmed by Bowdoin graduate Andrew Price '96, oversaw the formation of the consortium. Several Bowdoin graduates work for the company's analytics team, including Managing Director of Renewables Matt Gamache ’13, who played a key role in bringing the consortium to fruition. CES not only pulled together the consortium members, it also sent out requests for project proposals from energy companies and vetted and selected the finalists.

The reason for gathering twenty-three organizations in the deal was both to spread the risk and to "have a strong group, from a credit perspective, that was attractive to renewable-energy developers," Gamache said.

The consortium members are all financially stable and use a significant amount of electricity. "As a result of our combined bidding power," Gamache continued, "we got the most financially competitive projects and also got access to projects that are furthest along in terms of development." 

In the end, CES chose seven energy companies out of a pool of eighteen applicants. Each project will generate up to 5 megawatts of power (the cap set by the state for smaller-scale energy projects). Although most of the new development will consist of solar arrays—sized around twenty acres apiece—a few are hydropower projects. 

The projects are set to go online next year—2022 by the latest. If any of them fall through for any reason, Bowdoin only loses 3 percent of its expected financial and environmental benefits, Payson emphasized. "The point is to minimize risk to any one of these organizations," she said.

If each project is successful, together they will generate more than 210,000 megawatt hours per year, or 1.2 percent of the total electricity consumed in the entire state, according to CES. 

How Bowdoin Supports Renewable Energy and Saves Money

The net billing program basically works like this: companies build solar power, hydropower, or wind power capacity in the state and push the energy directly onto the power grid. In exchange, a utility—like Central Maine Power—issues a credit on an off-taker's invoice that looks like a negative line item and reduces the total amount owed on the bill.

Once it has received its credit, Bowdoin pays the renewable project developer at a discounted rate. In this way, Bowdoin saves (albeit, the College has to process two financial transactions), and a renewable energy project that wouldn't have been able to monetize this utility bill is able to profit from its investment.

Bowdoin's share of the consortium is only 1.2 percent (compared, for instance, to the biggest off-taker, Nestle Waters North America, whose share is 14 percent). This amount is just enough to get the College to its goal of sourcing all of its electricity from Maine-based renewable sources. "This is just a small slice of our overall energy strategy," Payson said. "And it was too good a financial and environmental opportunity to overlook."

Gamache agreed. "We used Bowdoin's participation in this consortium get us over the finish line," he said. 

Renewables graph
100 Percent Renewable at Bowdoin

The graph above shows where Bowdoin's electricity offsets will come from when all of the renewable projects the College has joined are completed and online. The percentages are estimates, and at this point amount to more than 103 percent. Bowdoin anticipates using more electricity in the future as it converts its vehicle fleet to electric and heats more campus buildings with electricity.

  • The 75 megawatt Farmington solar project: Once this one is up and running, this college consortium-backed project will supply roughly 44 percent of Bowdoin's total electrity use.
  • Another local project Bowdoin is working on with Sol Systems could almost double the amount of electricity Bowdoin sources to solar, to about 88 percent.
  • The CES Consortium completes the picture, covering the final 14 percent of Bowdoin's electricity needs. "It's the last piece," Payson said.

(The 'Tesla' line refers to the solar arrays Bowdoin has established on campus and at the former navy base. Bowdoin did not purchase the RECS for these projects, so cannot offset its electricity use with them.) 

*The graph below provides another visualization of Bowdoin's electrical use and offsets.

Bowdoin's electrical usage