Turning geothermal energy into power

One company has found a way to improve the margins by adopting innovative technology to help achieve higher efficiencies, reduce maintenance costs and improve the reliability of 30, 100 HP condenser fans at its geothermal power plant in the Oregon desert.

U.S. Geothermal Inc. is a leading renewable energy company focused on the development, production and sale of electricity from geothermal energy. The Boise-based company began commercial operation of its newest and largest plant, the Neal Hot Springs 22 MW facility near Vale, Oregon, in November 2012.

Most of the thermal energy that enters the plant has to be removed as waste heat in the cooling system, in this case through an air-cooled heat exchanger. Thermodynamic laws dictate that the cooler the heat source the less energy can be converted to electricity. Therefore, it also means that the heat rejection equipment, as a percentage of overall plant construction, becomes more expensive for geothermal power plants like Neal Hot Springs because the geothermal resource is cooler than the geothermal industry average and is much cooler than the combustion temperature in a coal- or gas-fired power plant.

For example, a 22 MW geothermal plant requires the same size cooling tower as a 50 MW natural gas steam plant. U.S. Geothermal VP of Project Development Kevin Kitz says this is why reducing operation and maintenance costs of the heat rejection system are critical to the economic success of low-temperature geothermal plants like Neal Hot Springs. When Kitz learned about Baldor’s direct drive cooling tower motor, which replaces the traditional and maintenance-prone gearbox configuration typically used in cooling towers, he believed he found the right product.

“I was very interested in using this motor from the minute that I first heard about it,” says Kitz. “The advantages were crystal clear to me. It’s a very efficient motor that uses a variable frequency drive (VFD) to reduce parasitic losses to improve profit margins. It also has very low maintenance costs, and a fiveyear warranty that says Baldor puts its money where its mouth is on reliability.”

The motor is unique because it combines the technologies of Baldor’s laminated finned frame RPM AC motor with a high-performance permanent magnet (PM) rotor design, creating a high torque, direct drive motor specifically designed for cooling tower applications.

The laminated finned frame construction provides a highly efficient, power-dense package that replaces the right angle gearbox and jack shaft installation found in conventional cooling towers. The fan couples directly to the motor shaft and is controlled by Baldor’s VS1 cooling tower drive for optimal variable speed performance.

Not only was U.S. Geothermal the first company in the geothermal industry to adopt Baldor’s cooling tower motor solution for air-cooled condensers, it was also the first in any industry to apply the 5800 size motor in such a large scale project. The air-cooled condensers at Neal Hot Springs are also innovative for the large diameter induced draft fans on the horizontal air heat exchanger bundles. Kitz says the big fans offer a huge advantage in terms of performance, and the Baldor motors supplement those advantages.

“In other industries, the heat rejection system is the tail of the dog,” says Kitz. “But in geothermal power plants, heat rejection IS the dog. It represents as much as one third of the total cost of the installed power plant equipment. Consequently, even small improvements go a long way, and we feel we have achieved a big improvement.”

Ian Spanswick, product director with TAS Energy, was the power plant project developer for Neal Hot Springs, and responsible for the technology of the power plant. He says TAS recognized the potential of usVans Old Skool Grise