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Monday, March 29, 2021

"Iced Up Blades Totally Disables Turbines"

Source:

"During the recent Big Freeze, thousands of Texan wind turbines were frozen solid, incapacitated by burst of frigid winter conditions.

.. calm weather meant that those that weren’t frozen stiff, added practically nothing to the grid.


While the internal workings of wind turbines (gearboxes, generators, yaw and blade pitch controls) can be kept operable with on-board heating systems (chewing up electricity from the grid all the while), the 50-60m long blades are a different story.

This recent study from the Iowa State University shows that the phenomenon will knock – an already ephemeral energy source – completely out of action.

Field study shows icing can cost wind turbines up to 80% of power production


Iowa State University
Hui Ha and Mike Krapil
4 March 2021

Wind turbine blades spinning through cold, wet conditions can collect ice nearly a foot thick on the yard-wide tips of their blades.

The study found ice accumulation can be nearly a foot thick on the blade tips.

That disrupts blade aerodynamics.

That disrupts the balance of the entire turbine.

And that can disrupt energy production by up to 80 percent, according to a recently published field study led by Hui Hu, Iowa State University’s Martin C. Jischke Professor in Aerospace Engineering and director of the university’s Aircraft Icing Physics and Anti-/De-icing Technology Laboratory.

Hu has been doing laboratory studies of turbine-blade icing for about 10 years, including performing experiments in the unique ISU Icing Research Tunnel.

... “But we always have questions about whether what we do in the lab represents what happens in the field,” Hu said.

“What happens over the blade surfaces of large, utility-scale wind turbines?”

We all know about one thing that recently happened in the field.

Wind power and other energy sources froze and failed in Texas during last month’s winter storm.

... Even in Iowa, where some 5,100 wind turbines produce more than 40% of the state’s electricity ... he wasn’t given access to turbines.

Energy companies usually don’t want their turbine performance data to go public.

So Hu – who had made connections with researchers at the School of Renewable Energy at North China Electric Power University in Beijing as part of an International Research Experiences for Students program funded by the National Science Foundation – asked if Chinese wind farms would cooperate.

Operators of a 34-turbine, 50-megawatt wind farm on a mountain ridgetop in eastern China agreed to a field study in January 2019.

Hu said most of the turbines generate 1.5 megawatts of electricity and are very similar to the utility-scale turbines that operate in the United States.

Because the wind farm the researchers studied is not far from the East China Sea, Hu said the wind turbines there face icing conditions more like those in Texas than in Iowa.

Iowa wind farms are exposed to colder, drier winter conditions; when winter cold drops to Texas, wind farms there are exposed to more moisture because of the nearby Gulf of Mexico.

As part of their field work, the researchers used drones to take photos of 50-meter-long turbine blades after exposure to up to 30 hours of icy winter conditions, including freezing rain, freezing drizzle, wet snow and freezing fog.

The photographs allowed detailed measurement and analyses of how and where ice collected on the turbine blades.

Hu said the photos also allowed researchers to compare natural icing to laboratory icing and largely validated their experimental findings, theories and predictions.

The photos showed, “While ice accreted over entire blade spans, more ice was found to accrete on outboard blades with the ice thickness reaching up to 0.3 meters (nearly 1 foot) near the blade tips,” the researchers wrote in a paper recently published online by the journal Renewable Energy.

The researchers used the turbines’ built-in control and data-acquisition systems to compare operation status and power production with ice on the blades against more typical, ice-free conditions.

... The researchers found that icing had a major effect:

“Despite the high wind, iced wind turbines were found to rotate much slower and even shut down frequently during the icing event, with the icing-induced power loss being up to 80%,” the researchers wrote.

That means Hu will continue to work on another area of wind-turbine research – finding effective ways to de-ice the blades so they keep spinning, and the electricity keeps flowing, all winter long."