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September 28, 2015

U.S. nuclear outages were less than 3% of capacity this summer

graph of daily U.S. nuclear capacity outage, as explained in the article text
Source: U.S. Energy Information Administration, Status of U.S. Nuclear Outages

Outages at U.S. nuclear power plants were extremely low this summer (June through August), averaging 2.9 gigawatts (GW), or less than 3% of total U.S. nuclear capacity. During four days in August, outages dropped to just 0.1 GW out of a total U.S. nuclear capacity of 98.7 GW, the lowest value recorded since the U.S. Nuclear Regulatory Commission (NRC) began collecting data in 2007.

Nuclear power plants provide baseload electricity generation and do not change output in response to daily or hourly fluctuations in electricity demand, as do power plants running on other fuels, such as natural gas. In June, nuclear power accounted for nearly 20% of total U.S. electricity generation. Although nuclear plant outages are typically low during the summer and winter months, when electricity demand is relatively high, outages this year have been much lower than normal. The decrease in nuclear power plant outages, both planned and unplanned, may be attributable to several factors.

Shorter refueling-related outages. Nuclear reactors typically refuel every 18 to 24 months. Although a reactor can be fueled in as little as 10 days, refueling-related outages often last longer, as operators schedule other noncritical maintenance work at the same time to minimize downtime.

The average duration of nuclear power plant refueling outages has been steadily declining. In the early 1990s, refueling-related outages lasted about three months. More recently, these outages lasted six weeks.

graph of average U.S. nuclear refueling outage length, as explained in the article text
Source: Nuclear Energy Institute, based on data from U.S. Nuclear Regulatory Commission, the Electric Utility Cost Group, and ABB Velocity Suite

Fewer uprates. Uprates to nuclear reactors, in which a power plant increases its maximum generating capacity, generally involve physically modifying the power plant and require the plant to be offline. Large or extended uprates may even be implemented over the course of two refueling outages.

In early 2013, five reactors completed extended power uprates totaling more than 600 megawatts (MW), which required lengthy outages. In contrast, uprates currently under review and pending approval by the NRC total just 61 MW, and the NRC expects to receive additional requests for a total of only 580 MW between 2015 and 2019, out of a total capacity of 98.7 GW.

graph of approved nuclear power uprates, as explained in the article text
Source: U.S. Energy Information Administration, based on data from U.S. Nuclear Regulatory Commission

Improved operating performance. U.S. nuclear power plant performance and reliability have consistently improved over the past 10 years. In 2014, the nuclear fleet operated at an average annual capacity factor—the measure of the capability of a power plant to remain online and generate electricity—of 91.7%. The nuclear fleet's average estimated monthly capacity factor for August 2015 was 98.4%, compared with 96.4% for August 2014. According to the Nuclear Energy Institute, 95 of 99 operating reactors achieved a capacity factor of 90% or higher during August, and 48 of the nation's 99 operating nuclear reactors achieved a capacity factor of 100% or above—reported capacity factors slightly above 100% are possible because they are based on net summer capacity, which can be lower than actual maximum generation capacity. Unplanned automatic or manual reactor shutdowns also reached a record low of 59 shutdowns in 2014.

graph of total unplanned shutdowns, as explained in the article text
Source: Nuclear Energy Institute, based on World Association of Nuclear Operators

Continued efficiency improvements will shorten outages of nuclear power plants. However, as summer transitions to fall, outages are expected to increase from their historic lows as nuclear plants enter the fall refueling and maintenance season. Outages can be tracked on EIA's Status of U.S. Nuclear Outages website.

Principal contributor: Nancy Slater-Thompson