Midwest Energy News, June 10, 2013
Utility customers who own solar panels are doing society a favor, helping to cut carbon emissions and ease transmission line congestion, among other benefits.
Or, they’re power-grid freeloaders, lowering their own electric bills but sticking everyone else with a bigger share of costs for infrastructure they still depend on after dark.
These two competing views of solar power have led to rising tensions in recent years over policies for connecting customer-owned solar arrays to the grid.
Minnesota’s new solar law could help shed some light on that debate.
As part of a broader solar energy bill signed last month by Gov. Mark Dayton, the Gopher State will soon give utilities an alternative to paying customers the retail electricity rate for their unused solar power. Instead, utilities will be able to pay a different rate based on the “value of solar” to their system, including cost-savings to other ratepayers and broader environmental benefits.
The state’s energy office will come up with guidelines for utilities that want to calculate a value-of-solar tariff, and the utilities’ studies will need to be approved by utility regulators.
Benefits for utiliies
Solar energy supporters who lobbied for the option (including Fresh Energy, where Midwest Energy News is based) are betting that a closer look at the economics of solar will ultimately show that customer-owned arrays are undervalued by utilities. They also hope it might help defuse some of the opposition to distributed solar by allowing utilities to untangle customers’ solar generation from their monthly electricity bills.
“With the value of solar, the utility doesn’t lose any of its energy sales, and they pay precisely what that solar is worth to their system,” said John Farrell, a senior researcher with the Institute for Local Self-Reliance, which advocates for distributed generation. It’s a way to grow solar “that does not blow up the utilities’ model for doing business.”
Most customer-owned solar arrays have been installed under an arrangement known as net metering, in which utilities run customers’ electricity meters backwards to compensate them for any unused solar power they generate.
Utilities tend to dislike net metering because it lowers electricity sales. When you subtract kilowatt hours from solar customers, you’re left with less revenue to pay for “fixed costs” like power plants and transmission lines, and utilities could be forced to make up the difference by raising rates. That’s led to growing resentment and opposition against solar in some states.
The first step is for the Minnesota Department of Commerce to come up with a methodology for calculating the value of solar tariff. The department has until January 31 to submit a proposal to the Minnesota Public Utilities Commission.
The formula must reflect value to the utility, its customers, and society. Specifically, that includes “the value of energy and its delivery, generation capacity, transmission capacity, transmission and distribution line losses, and environmental value.” It may also include local economic benefits, grid congestion benefits or other factors.
After the department establishes a methodology, and the state’s Public Utilities Commission has approved it, public utilities can use it to calculate the value of solar to their systems. The utilities would be required to file studies with the utilities commission, and after a public comment period the commissioners would decide whether the utility correctly applied the methodology.
“The filings that they make are going to be a great opportunity to learn more [about the economics of solar], at least I’m hopeful they will be,” Farrell said.
That’s if the public gets to see the calculations.
“Having participated in PUC proceedings before, I’m aware that a lot of times utilities basically dump a number and say, well, this is what we got and the information about how we got there is proprietary. It really does depend a lot on what kind of formulas [the state] comes up with and whether they require the utilities to disclose how they arrive at their answers.”
Once regulators approve a utility’s proposed value-of-solar rate, customers who install solar arrays, unlike with net metering, would continue being charged for all of the electricity they use — their meter wouldn’t run backward on sunny days. Instead, a second meter would be installed on their solar system and the utility would purchase all of that electricity at the value-of-solar rate, which would be locked in for 20 years.
Utilities would recalculate the value-of-solar tariff every year, and the rate could not be lower than the regular retail rate for the first three years after the program starts. After that, solar will have to prove its value in order to receive a premium.
Lappé and Farrell are confident, based on recent studies, that if the process goes as intended it will prove that solar customers aren’t freeloaders but actually making undervalued contributions to the electricity system.
“If you get the methodology done well, we’re not too concerned about the value of solar falling below retail rates,” Lappé said.
That isn’t the same as a subsidy. Customers who own solar arrays would merely be paid for the value they generate for the utility, ratepayers and society. Should utilities opt to try value of solar, Farrell hopes it will bring that value to light.
“[The desire was] to make it much easier for people to go solar, and to create a market and a financing mechanism,” Farrell said, “and the other part was to bring a lot more transparency to the value of solar and distributed power to the grid system.”