This chart shows the production tax credit at its most recent level (dashed lines). The credit is currently worth 2.3 cents per kWh for ten years, or about 1.6 cents per kWh when levelized over the 20-year life of a typical wind contract.
By: Diane Stirling
The costs of using wind energy and natural gas for electricity are virtually equal when accounting for the full private and social costs of each, making wind a competitive energy source for the United States, according to a new study on the federal tax credit for wind energy.
Just released by researchers at Syracuse University and the University of California, the analysis shows that wind energy comes within .35 cents per kWh when levelized over the 20-year life of a typical wind contract, compared on an equivalent basis to the full costs for natural gas-fired energy, according to Jason Dedrick, associate professor at Syracuse University’s School of Information Studies (iSchool).
“The true cost of electricity from wind power and natural gas are effectively indistinguishable, yet because the cost of carbon emissions is not included in the market price of gas, wind has not been a competitive form of energy use in most of the United States, without government pricingsupport,” Dedrick said.
The analysis starts from the U.S. Department of Energy (DOE) estimates of the lifetime “levelized” cost of electricity from a new wind farm, and also from an advanced combined cycle gas plant. The analysis develops a new metric that incorporates long-term factors which are not included in the DOE numbers. Accordingly, the study also reveals that the recently-expired Production Tax Credit for wind makes up for the lack of any mechanism to make fossil fuel generators pay for the cost of carbon emissions, Dedrick noted.
Researchers for the study, “Visualizing the Production Tax Credit for Wind Energy,” in addition to Dedrick, are Kenneth L. Kraemer, research professor, University of California, Irvine; and Greg Linden, senior research associate at the University of California, Berkeley.
Gas Appears Cheaper
Current national-average estimates from the DOE are 8.7 cents per kilowatt-hour (kWh) for wind and 6.6 cents for gas-fired energy--making gas appear as a much cheaper alternative, Linden noted. Incorporating the new metric into the analysis, however, shows that the tax credit “is actually compensating for a market failure to price the future cost to society of carbon emissions,” Linden explained. “In the absence of a carbon tax, the PTC can serve as a stand-in to make the market reflect the true costs of energy.”
The study incorporates these aspects:
- Future costs of carbon dioxide emissions are added to the price of gas (using the government’s most recent Interagency Working Group average of $43 per metric ton)—at a cost of 1.6 cents per kWh.
- The cost of supply intermittency (the cost to utilities to compensate for wind stoppages and variations) is added to the price of wind—estimated at 0.5 cents per kWh.
- The cost of correcting natural gas price volatility for 20 years (the length of time for which wind prices are typically fixed) is added to the price of gas— estimated at 0.65 cents per kWh.
- Adding these costs together finds that the adjusted levelized cost of electricity for wind is 9.2 cents per kWh, versus 8.85 cents per kWh for gas.
(See accompanying chart, above)
The components of the adjusted levelized cost, reported here as averages, are actually estimates that fall in a range, Linden noted. “The result is even more favorable for wind if you consider some of the larger possible values for carbon emissions,” he added.
Dedrick noted that while the amounts discussed here are averages, the costs of wind and gas vary considerably across the U.S. The price difference between wind and gas power is actually less than 1.6 cents per kWh in many regions of the country, “and that is where the PTC will have its impact,” he concluded.
Support for PTC?
The question of whether the federal government should support wind energy has been debated by Congress for more than two decades, at least since the PTC was created in 1992, according to Kraemer. He said the credit has been implemented in an on-again/off-again fashion, expiring five times since then. Until now, the tax credit has always been renewed for another year or two. This year, Kraemer said, President Obama’s proposed budget for the Department of Energy calls for permanently extending the PTC, at a cost of $19.2 billion over the next 10 years.
Dedrick suggested that “Since the levelized value of the PTC happens to be very close to the average estimated cost of carbon from a natural gas plant, a long-term extension of the PTC would have a similar effect to a carbon tax in terms of the relative price of electricity from wind and gas.” He continued, “Given the ranges of the estimates for each of the costs involved, our research shows that the true cost of electricity from wind power and natural gas are effectively indistinguishable. Yet, because the cost of carbon emissions is not included in the market price of gas, wind is not competitive in most of the U.S. without government support. An alternative would be to create a pricing mechanism for carbon emissions, either through a carbon tax or cap-and-trade scheme. However, neither of those options seems likely in the current U.S. political environment,” Dedrick added.
The project was supported by a grant from the Alfred P. Sloan Foundation.
For more information contact:
School of Information Studies, Syracuse University:
J.D. Ross, Director of Communications
firstname.lastname@example.org; (315) 443-3094
Jason Dedrick: email@example.com
Kenneth L. Kraemer: firstname.lastname@example.org
Greg Linden: email@example.com