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More wind power and utility integration: A question already being resolved

More wind power and utility integration: A question already being resolved

A recent Bloomberg Businessweek editorial opined that large-scale energy storage "makes all the difference" for a renewable energy source like wind power.  The following comment from AWEA Manager of Transmission Policy Michael Goggin was posted in response.

In this opinion piece, the Bloomberg editors correctly note the many benefits of renewable energy deployment, such as the massive supply of domestic wind and solar energy resources in the U.S., the fact that renewable resources do not cause pollution, as well as the continuing cost reductions for renewable resources (in fact, the cost news is even better than they claim; data from a number of independent analysts show that new wind plants are already competitive with new coal power plants).

Further good news: the editors’ concerns that a lack of large-scale energy storage will prevent this bright renewable energy future from being realized are unfounded. It is a common misconception to think that the variability of renewable resources is a unique challenge for grid operators. The reality is that utility system operators are constantly dealing with massive swings in electricity demand and in the output of conventional generators. Electricity demand varies by a factor of three or more depending on the time of day and year, and it is common for large nuclear and fossil power plants to experience sudden outages that take 1000 megawatts (MW) (enough to power 1 million homes) or more of generation offline with no warning. System operators deal with this variability in supply and demand by changing the output of flexible resources, such as hydroelectric and natural gas power plants that can change their output level and store their fuel behind the dam or in the gas pipeline, as well as activating demand response resources (businesses that pay a reduced rate for electricity in exchange for allowing temporary interruptions in supply).

In many ways, the variability of wind and solar resource is easier to deal with than other types of variability on the power system. When wind and solar plants are spread over a large geographic area, as they are in the U.S., their output becomes far smoother and more predictable. This makes sense, as a weather event affecting one wind plant will take many hours to reach a wind plant hundreds of miles away, by which point the first wind plant would at many times be experiencing an opposite change in output; data from real-world wind plants confirms this powerful canceling-out effect. Moreover, wind power forecasting has become remarkably adept at accurately predicting wind output a day or more in advance, with forecast errors that also tend to cancel out across larger geographic regions.

The critical difference between the variability of wind and solar plants and that of conventional power plants is that renewable output changes slowly and predictably, while failures at conventional power plants occur instantaneously and without warning. As a result, it is more appropriate to talk about the need for grid operators to back up a large conventional generator than it is to talk about backing up renewable resources. Importantly, the fast-acting reserves that system operators must have on standby 24/7/365 in case a conventional generator experiences an outage typically cost 40 times more than the slower-acting reserves that are best suited for accommodating the slower variability of wind energy. Another important factor is that, until the percent of electricity provided by wind grows to many times larger than it is on average in the U.S. right now, changes in wind output will continue to be offset and overshadowed by larger variability in electricity demand.

As wind energy continues to grow and make up a larger share of our energy mix, at some point the challenges associated with integrating wind will eclipse the challenges associated with accommodating variability in electricity demand and the supply from conventional power plants. Fortunately, our power system is already evolving to become more flexible and thus better able to accommodate very large amounts of renewable power, and the factors making the power system become more flexible appear likely to continue into the future. For one, inflexible coal power plants are rapidly being replaced by more flexible natural gas power plants. Second, utility system operating procedures are becoming more efficient thanks to new technology and policy reforms. New transmission lines will also allow power to flow more freely from region to region, providing access to new sources of flexibility and minimizing the variability that must be accommodated by further canceling out different sources of variability. Finally, new resources like demand response, energy storage, and even renewable resources themselves are increasingly able to offer their flexibility to the power system. One of the best things the government can do is to put markets and other system operating reforms in place that allow resources that provide power system flexibility to be compensated for doing so, and then let the market sort out what mix of resources is best able to provide that flexibility.

More reading:

Notion of other power sources being variable, too, gains traction, August 30, 2011
After a scorching week, wind power lessons from the Texas heat wave, August 11, 2011
Wind helps meet new Texas record for electricity demand, August 4, 2011
As Texas utility system is stressed, wind generation shows up on schedule, August 3, 2011
Fact check: Utility spokesperson errs on wind integration, July 5, 2011
Wind energy integration: Some fundamental facts, June 23, 2011
Mythbusting fact: Wind power is valuable even if the wind doesn't blow all the time, April 20, 2011
 

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Michael Goggin is Vice President at Grid Strategies LLC, a DC-area consulting firm working on grid and markets issues for clean energy clients including AWEA. He was previously head of Research at AWEA.

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