Most comprehensive analysis of electricity reliability trends
New report finds that increasingly severe weather is linked to longer lasting power outages
- Date:
- August 24, 2015
- Source:
- DOE/Lawrence Berkeley National Laboratory
- Summary:
- In the most comprehensive analysis of electricity reliability trends in the United States, researchers have found that, while, on average, the frequency of power outages has not changed in recent years, the total number of minutes customers are without power each year has been increasing over time.
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In the most comprehensive analysis of electricity reliability trends in the United States, researchers at Lawrence Berkeley National Laboratory (Berkeley Lab) and Stanford University have found that, while, on average, the frequency of power outages has not changed in recent years, the total number of minutes customers are without power each year has been increasing over time.
The researchers pinpointed what utilities and their regulators refer to as "major events," or events generally related to severe weather, as the principal driver for this trend. "This finding suggests that increasingly severe weather events are linked to a 5-10% increase in the total number of minutes customers are without power each year," said Berkeley Lab Research Scientist and Stanford PhD candidate, Peter Larsen, the lead author.
The researchers analyzed reports for a large cross-section of utilities representing nearly 70 percent of U.S. electricity customers spanning 13 years from 2000 to 2012.
Although a 2013 White House report noted that major power outages and severe weather events are increasing, this study is the first of its kind to use econometric analysis techniques to statistically correlate these events with electricity reliability. Most studies of reliability have relied on information that reflects only the largest power outages. Yet, over the course of any given year, the largest events typically account for no more than 10 percent of all power outages. This study, by relying on information for all power outages, both large and small, conclusively identifies a trend that is linked directly to these larger events.
One surprise was that the study did not find a consistent link between reliability and utility transmission and distribution (T&D) expenditures. "We expected to find that increased spending on T&D would lead to improved reliability, but it is possible that a combination of proactive versus reactive utility maintenance policies may be off-setting this effect on reliability," Larsen said. He anticipates that future research will be able sort this out through more detailed analysis of utility spending practices.
Co-author and Berkeley Lab Staff Scientist Joseph Eto said: "We hope the findings from the study will provide a more solid basis upon which to ground future private and public decisions on the long-term reliability of the U.S. electric power system."
This work was funded by the Office of Electricity Delivery and Energy Reliability, National Electricity Delivery Division of the U.S. Department of Energy. Other co-authors were Kristina H. LaCommare of Berkeley Lab and James L. Sweeney of Stanford.
Their report, "Assessing Changes in the Reliability of the U.S. Electric Power System," is available at: http://emp.lbl.gov/publications/assessing-changes-reliabi
Story Source:
Materials provided by DOE/Lawrence Berkeley National Laboratory. Original written by Jon Weiner. Note: Content may be edited for style and length.
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