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Electric Power Metrology and the Smart Grid

Summary:

Our country's way of life depends on the electric power distribution system. Keeping the national electric grid in good working order -- and ensuring power is measured accurately and billed fairly -- requires a set of standards for electric power measurements. NIST is deeply involved in developing and maintaining these standards. Our efforts include devising metrology that allows new technologies to connect into existing power production and delivery systems, as well as standards that protect the infrastructure from potential dangers introduced by deregulation. This project's work also supports the realization of the Smart Grid, the future model of the U.S. electric power grid that incorporates cutting-edge technologies to achieve unprecedented efficiency, reliability, and safety.

Description:

Power outages are at a minimum an inconvenience, but extended periods without power can be life-threatening; e.g., to patients in hospitals and during extreme weather. Deregulation of the U.S. electric power industry has complicated the task of ensuring the dependability of the nation's complex power infrastructure. NIST performs invaluable research that supports reliable power delivery, public safety, and accurate pricing of electric power.

Ironically, modern technological advances are making this task increasingly difficult. For example, sensors and actuators used to control the operation of electric power systems are now widely connected via modems and the Web, but because they are designed for speed and other functional considerations, rather than security, they may be vulnerable to attack. In conjunction with utilities and vendors NIST researchers are identifying these weaknesses and reviewing the standards affected by them.

Deregulation has also opened the door to suppliers using non-traditional electricity generation technologies that may introduce distortions into the flow of power delivered to customers. NIST is developing systems to characterize the distortions and verify that meters can still operate accurately even when these distortions are present.

Modern society's embrace of more efficient electrical devices is also driving new standards research. To encourage reductions in electric power consumption, the U.S. Department of Energy (DOE) designates minimum efficiencies for electrical equipment, such as power transformers and electric motors. NIST advises DOE by developing technically sound sampling strategies and instrumentation for testing these devices.

To remain competitive in the global power market, U.S. industry needs standards that are internationally acceptable. International comparisons are essential for the validation of measurement techniques used at national metrology institutes across the globe and also for transnational sales of electric power.

Major Accomplishments:

  • Developed hardware and software to test more secure control system communication techniques and to make sure that these techniques meet the relevant standards
  • Served as the pilot lab for a comparison among countries that participate in the Interamerican Metrology System
  • Performed essential electric power metrology for the Smart Grid, a model for the modernization of electric power production and distribution. The Smart Grid will be more reliable, efficient, and safer than today's grid.
Calibrating a Phasor Measurement Unit (PMU).
Calibrating a Phasor Measurement Unit (PMU).

End Date:

ongoing

Lead Organizational Unit:

EEEL

Source of Extramural Funding:

  • U.S. Department of Energy
  • U.S. Air Force

Customers/Contributors/Collaborators:

National Research Council Canada

Staff:

Gerald FitzPatrick
Thomas Nelson
Gerard Stenbakken
Bryan Waltrip
David Bergman
Mark Parker
Robert Palm

Related Programs and Projects:

Contact

Thomas Nelson
(301) 975-2986

100 Bureau Drive, MS 8172
Gaithersburg, MD  20899-8172