Wind Testing and Certification

Recognizing that access to testing facilities is a key enabler of wind technology validation and commercialization, the Wind Program invests in and works with partners on the development of testing facilities that support research and certification of wind turbine technologies at the component, turbine, and wind plant levels. These testing facilities are geographically diverse, located in key wind energy regions, and possess unique testing capabilities that allow the Department of Energy to usher in new and innovative generations of wind energy technology.

For additional information on these and other testing-related projects funded by the Wind Program, see our list of Testing, Components, and Manufacturing Projects for Utility-Scale and Distributed Wind.

Component Testing and Certification

According to the American Wind Energy Association, there are roughly 8,000 component parts in a utility-scale wind turbine, including the blades, rotors, generator, or other parts located inside the nacelle.

The Wind Program invests in and works to create partnerships for the creation of wind technology testing facilities, in order to help industry develop and manufacture the most cost-effective, reliable, and innovative wind turbine components. Research, testing, and certification of these wind turbine components are important steps in validating wind turbine component design, performance, and adherence to safety standards.

Wind Technology Testing Center (Boston, Massachusetts)

Blade testing bays at the Wind Technology Testing Center near Boston, Massachusetts.

The Wind Technology Testing Center located near Boston, Massachusetts has enough space to conduct up to three simultaneous blade tests.

Partially constructed drivetrain test stand, Clemson Drivetrain Testing Facility, North Charleston, South Carolina.

This image shows a partially constructed drivetrain test stand located within the Clemson Drivetrain Testing Facility near Charleston, South Carolina. Once completed, the stand will be capable of testing drivetrains up to 7.5 MW in size.

Photo of the wind turbines and mountains around the National Wind Technology Center.

The National Wind Technology Center is located at the base of the foothills just south of Boulder, Colorado, and is the nation's premier wind energy technology research facility.

Located near the Port Authority in Boston Harbor, the Wind Technology Testing Center is the first commercial large-blade testing facility in the nation and allows for testing of blades as long as 300 feet (90 meters). With close proximity to substantial offshore wind resources and a 1,200-foot (360-meter) dock for handling blades, the center is ideally located to support the emerging U.S. offshore wind industry. Testing and certifying large blades—a key component of large-scale wind turbines—will enable the development of offshore wind power facilities, which generally use higher-capacity turbines with longer blades to accommodate stronger offshore wind resources. Certifying larger blades and higher-rated turbines allows offshore developers to use fewer turbines, reducing operations and maintenance costs.

A joint project between the Wind Program, the Massachusetts Clean Energy Center and the National Renewable Energy Laboratory, the Wind Technology Testing Center facility is accredited by the American Association for Laboratory Accreditation (A2LA) to test wind turbine blades to International Energy Commission (IEC) standards. The facility is equipped with three test stands, and specific testing capabilities include blade materials testing, hands-on workforce training, and a full suite of static and fatigue tests to the IEC61400-23 standard. Since the center opened in May 2011, it has performed blade testing on a variety of 160-foot (50-meter) wind turbine blades to support the industry in improving reliability and reducing cost of energy. The Wind Program contributed $24.7 million to the construction of the Wind Technology Testing Center, with funding provided under the American Recovery and Reinvestment Act.

Clemson Drivetrain Testing Facility (North Charleston, South Carolina)

Funded in part by a $44.5 million Wind Program grant under the American Recovery and Reinvestment Act, the Clemson University Drivetrain Testing Facility is aimed at boosting American innovation and competiveness in manufacturing wind turbine drivetrains. Located at a converted Navy warehouse, this center will test the machinery that converts wind energy to electricity, allowing engineers to perform highly accelerated lifetime testing, that is, to simulate 20 years' worth of wear and tear on large drivetrains in only a few months.

The facility will house two testing bays — one dynamometer rated at 7.5 megawatts (MW) and another dynamometer rated at 15 MW, making it the only facility of this size in the world. In addition, the testing facility will also house a grid simulator, funded under a separate Wind Program grant, which will allow for testing of wind turbine generators' compatibility with 50 or 60 hertz (Hz) electrical transmission grids. The grid simulator will also mimic real-world circumstances—such as wide-area power disruptions, frequency fluctuations, voltage drops, cascading accidents, and cyber or physical attacks—to determine the effects of the wind turbine on the utility grid, and the grid on the wind turbine.

National Wind Technology Center (Boulder, Colorado)

Facilities at the National Renewable Energy Laboratory's National Wind Technology Center (NWTC) support the testing of wind turbines and components with dynamometers that range in size from 400 watts to 5 MW, a grid simulator, blade testing facilities, and full-scale turbine testing pads. NWTC's engineers provide wind industry manufacturers, developers, and operators with testing to verify the performance and reliability of blades, turbines, and other components.

NWTC staff conducts tests both on components in laboratory environments and on turbines in the field to produce data that can be used to certify and validate turbine designs. Since 1993, this testing facility has helped both private industry and public researchers and academics drive new wind technology development, from more efficient blades up to 160 feet (50 meters) in length to stronger, more durable drivetrains. The National Wind Technology Center was funded in part by a $9.95 million Wind Program grant under the American Recovery and Reinvestment Act.

Small Wind Turbine Testing and Certification

The recent growth and development of the international small wind industry has seen a large number of new products enter the U.S. market without a framework for verifying manufacturer claims about turbine performance, reliability, noise, and safety. In response, the Wind Program supported the development of technical standards that can now be used voluntarily to test small wind turbines to performance and safety criteria, and supported the establishment of four small wind turbine regional testing centers and the Small Wind Certification Council, which provides accredited third party verification of test results in accordance with internationally adopted technical standards for testing.

The Wind Program views small wind turbine certification as a way to provide manufacturers with the parameters for communicating transparent and credible information to consumers, utilities, lenders, and policymakers about the safety, performance, and durability of small wind turbines. A unified list of certified small wind turbines is maintained by the Clean Energy States Alliance.

Wind Plant Characterization

Improving the performance of an individual wind turbine and its components is just one piece of the puzzle for reducing the cost of wind energy. Another important piece is improving wind plant performance by analyzing how wind turbines interact with one another in a wind plant or wind farm. Together with industry partners and national labs, the Wind Program is working to build the wind plant of the future.

Scaled Wind Farm Technology Facility (Lubbock, Texas)

Photo of three wind turbines towers at the Scaled Wind Farm Technology Facility in Lubbock, Texas.

The Scaled Wind Farm Technology Facility located at Texas Tech University's Reese Technology Center in Lubbock, Texas. Tests conducted here will record data about how wind turbines interact with other wind turbines in a wind plant. Credit: Texas Tech University.

The result of a research partnership by the Wind Program and Sandia National Laboratories, with investments by Vestas, Texas Tech University (TTU), Group NIRE and ABB, the Scaled Wind Farm Technology (SWiFT) site, located at TTU's Reese Technology Center in Lubbock, enables rapid, cost-effective testing and development of transformative wind energy technologies. Supported by a $5.06 million Wind Program investment, the SWiFT site performs at the highest quality of accredited research testing for both collaborative and private research projects with industrial, governmental, and academic partners.

SWiFT's primary objectives are to reduce power losses and damage caused by turbine-turbine interaction, enhance energy capture and damage-mitigation potential of advanced rotors, and improve the validity of advanced simulation models used to deploy advanced wind technologies. The initial SWiFT site is comprised of three heavily-instrumented, research-scale wind turbines that can operate together to simulate a wind farm or independently from one another for different test scenarios. In addition, multiple anemometer towers are located on-site and TTU has a range of additional instrumentation available for researchers. In the future, the SWiFT Facility could accommodate up to seven additional turbines.