Wind Turbine Lubrication and Maintenance: Protecting Investments in Renewable Energy

Like any other piece of major equipment in the power industry, wind turbines represent a large investment for the companies that rely on them to generate both electricity and revenue. Unlike gas turbines or boilers in coal-fired power plants, however, wind turbines present some unique challenges.

Repairing wind turbines can often be difficult for several reasons. Most wind farms are located in remote areas, making it difficult to reach the site. Once at the site, workers are faced with making repairs while anywhere from 75 feet to nearly 400 feet in the air. Also unlike natural gas-fired or coal-fired plants, operators can expect to repeat this process multiple times because of the comparatively small capacity of wind turbines.

One of the keys to preventing costly, time-consuming repairs is planned maintenance, said Julie Rushton, marketing category specialist for Petro-Canada Lubricants Inc. Proper turbine lubrication is an important part of that maintenance.

“Wind turbines are very expensive pieces of machinery, and the lubrication system is very important to keep that machine working well,” she said. “There are lots of different parts of the wind turbine that need to be lubricated, using lubrications from greases to gearbox fluids to hydraulic oils.”

Keeping a wind turbine’s gearbox properly lubricated is important in extending the life of a wind turbine, Rushton said. Petro-Canada’s Harnex 320, designed to be used in wind turbine gearboxes, is a fully synthetic oil designed to withstand the conditions wind turbines may be subject to, whether that is extreme temperatures or the potential of corrosion from saltwater for offshore wind turbines.

The type of oil that is used in a turbine’s gearbox — and for all other parts of a wind turbine — is generally designated by the original equipment manufacturer for the units. One of the main differences is whether the oil is a synthetic oil or mineral oil. 

Shell Global Solutions US Inc. offers both synthetic and mineral-based oil for wind turbine gearboxes. Shell Global Solutions Product Application Specialist and Team Lead Felix Guerzoni said one thing the company looks at when designing products is making sure customers can rely on the product to last a significant amount of time without needing additional service.

“With the remoteness of these units, they’re really only serviced, as far as the regreasing, every six months at best,” he said. “In terms of the gear oil, customers want to use the gear oil and have that last anywhere from three to five years without change out, because there are some very significant costs involved in changing the gear oil out as well as in the event of failure of a gearbox and having to change the gearbox out. The rental of specialty cranes is a very significant cost as well.” 

The gearbox is not the only part of the turbine that requires lubrication, however. The generator also requires lubrication, and there are lubrication points on the blades. Wind tower blades have bearings that will essentially feather the blade so operators can optimize the blade angle to match wind speed. The main shaft bearing also requires grease for lubrication, as well as the drivetrain and yaw and pitch drives. The turbines also use a hydraulic system that is used to provide a braking mechanism for a unit, but can also be used for hydraulic pitch control on the blades.

With all these different parts requiring lubrication, multiple products could be required in order to maintain a single turbine. Guerzoni said Shell attempts to create products that can be used for multiple purposes when it can be done without losing quality. 

“We’re trying to optimize that as much as possible, because obviously from a service engineer’s standpoint, the fewer lubricants they have to apply the better,” he said. “Some companies will try to do a single solution, but then you have to look at the overriding reliability of the unit relative to trying to rationalize the number of products. You can get much better performance and reliability out of a product that is really designed for that specific application, especially when we talk about greases. So there’s a bit of a tradeoff there.” 

Travis Lail, Americas Industrial Marketing Adviser for ExxonMobil, said his company takes a similar approach to specializing lubricants for different parts of a wind turbine, but also attempts to make multipurpose products when there would be no decline in quality. The company produces Mobilgear SHC XMP 320 for turbine gear boxes as well as several other products for wind turbines, including Mobil SHC Grease 460 WT for use in main, pitch and yaw bearings and Mobil SHC 524 lubricant for use in hydraulic systems.

“Our approach to the industry is providing products that are optimized for specific applications,” he said. “Of course we try to help customers use the fewest number of correct lubricants possible in order to meet their lubrication needs.”

Optimization the number of potential applications while producing the highest quality product isn’t the only area at which companies look in their research and development process. As turbine technology continues to develop and companies produce larger wind turbines, companies producing the lubrication also need to produce lubricants to keep up with the industry. 

Lail said the larger turbines being produced by companies require oil that can handle the extra stress created by the extra size. 

“The gearbox actually creates additional stress, and the essence is it challenges the oil’s ability to maintain a sufficient film strength,” he said. “You have to improve your additive packages and base oils that you use to make sure you’re able to optimize your oxidation resistance but still maintain low temperature fluidity.”

One way to ensure products are optimized for different wind turbines is to work directly with the original equipment manufacturers, Guerzoni said.

“We’ve got a very well-proven and successful product line at the current time, but as these turbines are getting larger in size with higher towers, longer blade lengths and higher megawatt class, that’s adding new challenges and putting more stress on the unit and more stress on the oil,” he said. “As a result of that the specifications are changing at a very rapid rate, especially on the gear oil side, and so as an oil supplier we’re constantly looking at the updates and changes in trends of the design and bringing out new products to meet those requirements.”


Turbine lubrication, however, is just one part of the process of maintaining equipment at wind power farms. Dennis Pruett, who leads Services Global Operations for GE Renewable Energy, said planned maintenance can also include services such as filter changing and the torqueing of bolts, while unplanned maintenance can also include electrical component failures and part replacements. 

“Wind turbine maintenance is important for the same reasons that regular maintenance to your car is important,” he said. “A turbine is a complex machine made up of numerous moving parts that handles extreme loads, pressure, and stress on a regular basis.  Maintenance is important to ensure that the wind turbine is running at its highest capacity and efficiency.” 

GE Renewable Energy is not only an original equipment manufacturer for wind turbines, but also provides maintenance services to the turbines. Many of GE Renewable Energy’s customers sign service agreements at the same time they purchase their new units, and when the turbine comes off warranty, it undergoes a post-warranty Inspection and the owner decides of they would like to move forward with the OEM as the service provider, use a third-party service provider or self-perform maintenance, Pruett said.

Pruett said GE Renewable Energy has more than 22,000 units installed globally, with about 6,000 of those units currently under warranty. The U.S. has seen a large increase of wind power generation recently, especially with the production tax credit currently in effect. Around 183 wind power projects were built in 2012, producing 13 GW of new wind power capacity, according to the American Wind Energy Association. That number is nearly double the 103 wind power projects built in 2011. 

“The standard warranty for a wind turbine lasts tw years, so in the next few years there will be a large number of turbines coming off of warranty,” Pruett said. 

Robert Bergqvist, vice president of sales and marketing for UpWind Solutions, said he expects to see growth in the turbine maintenance business over the next few years. UpWind Solutions is one of the third-party operations and maintenance companies turbine owners may choose to contract with rather than the original equipment manufacturer and manages around 13,000 turbines. 

Bergqvist said asset management needs for wind projects needs to be looked at slightly different than for gas fired or coal plants.

“If you have one turbine down for unplanned maintenance, then you’re going to have a pretty large cost associated with that replacement,” he said. “The trick in the wind industry, as far as asset management goes, is to be able to make unplanned maintenance a thing of the past.” 

Bergqvist said his company looks at grouping together different types of maintenance that avoid spread out leases of cranes or other equipment. If it’s possible to identify 10 units that will probably have some kind of failure, operators can schedule a proactive replacement of those units at the same time.

Monitoring the equipment is also an important part of preventing expensive and unnecessary repairs, he said. UpWind Solutions offers condition-based monitoring solutions for operators that include taking samples of oil, measuring the vibrations in the gearbox and using software that continually evaluated performance of units based on oil temperature, rotation speed and other information.

The combined results allow the company to create “an intelligent, predictive analysis identifying the outliers and what will probably break down,” he said.

“If you’re able to take care of problems before they become a major problem, then you’re going to extend the life of the unit,” Bergqvist added.

Previous articleDoes Buying Clean Energy Stocks Do Any Good?
Next articleMarine Life Unhindered by Offshore Wind Farm, Study Says
Justin Martino, an associate editor of Power Engineering, has a B.A. and J.D. from the University of Oklahoma. He has previously covered the Oklahoma Legislature and the Oklahoma and U.S. courts as well as regulation issues at the state and federal levels.

No posts to display