CoBank report identifies how solar energy is expected to gain ground as costs become more competitive.

June 19, 2018

3 Min Read
More farmers look to solar power
CoBank

As on-farm solar becomes more competitive with retail electricity, solar panels may be a common sight across U.S. farm fields and livestock operations. Lower costs, along with federal tax credits, state incentives and a stronger agricultural economy, could entice more farmers to install on-farm solar generation in the decade ahead.

“As sure as the sun rises, the price of solar will fall,” CoBank lead economist Taylor Gunn said. “The U.S. farm economy is currently at the bottom of a business cycle, which has slowed the adoption of on-farm solar generation, but when markets reverse, we expect interest in on-farm solar to increase.”

A new report from CoBank’s Knowledge Exchange Division predicts that solar energy use will accelerate among agricultural producers when the cost of installing and operating distributed solar energy systems is the same or less than commercial electricity rates. This rate convergence is known as “grid parity.” Grid parity is based on the levelized cost of energy, which calculates the cost of building and operating a solar generation system.

“In most states, grid parity for on-farm solar will likely occur by 2025 to 2030 and could happen even sooner in areas with strong solar resources,” Gunn said.

Incentives drive use

CoBank experts anticipate that federal and state incentives will continue to drive solar adoption as well. The federal Investment Tax Credit now provides solar system owners with a tax credit equal to 30% of the cost of the system. The credit drops to 26% in 2020, 22% in 2021 and 10% from 2022 forward.

When installing solar energy systems, farmers also may be able to take advantage of the federal Rural Energy for America Program, which provides guaranteed loan financing and grants to agricultural producers and rural small businesses for renewable energy systems or energy efficiency improvements.

In addition, most states have net metering policies, whereby local utilities compensate owners for the kilowatt-hours of energy the solar system produces above the owners' needs. Currently, 38 states have mandatory compensation rules, although states differ in compensation rates and system size limits. For example, in Minnesota, systems below 40 kW in size are compensated at the utility’s full retail rate.

“State-level net metering policies will continue to spur growth of on-farm solar,” Gunn said.

Who gains from solar

Agriculture is an energy-intensive business, and livestock production is at the top of the user list. Dairy and livestock farmers pay hefty electric bills that average $12,000-13,000 annually for powering feed equipment, ventilation, lighting, heating systems and milk pumps and coolers. The total energy that U.S. dairy, poultry and swine producers purchased in 2017 could support 1.1 million single-family homes for a full year.

“This level of energy consumption makes these producers prime candidates for solar energy adoption, especially since their needs are year-round,” Gunn pointed out. “They have the most to gain from the increasing competitiveness of solar energy. Future recoveries in the hog, dairy and poultry sector will signal a strong growth period for on-farm solar generation.”

Electric utilities to respond

Electric co-ops have a long history of demand-side management — controlling members’ loads during times of peak demand in exchange for more attractive rates.

“Providing competitive energy rates for agricultural producers through demand response does help electric cooperatives reduce the risk of losing sales to on-farm solar generation, but even these rates could face competition from on-farm solar by 2030,” Gunn said.

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