This project is expected to be delivered in the first quarter of 2016, and will be supplied to TIC – The Industrial Company, the chosen EPC for the new combined cycle project.

TAS Energy’s patented Turbine Inlet Chilling solution will include 1 F-70 chiller package, supplying approximately 7,500 tons, and one GT filter house coil package for one Mitsubishi Hitachi M501J gas turbine at the Grand River Energy Center. The implementation of the TIC package will provide additional peak time megawatts for the unit, compensating on power lost as a result of ambient temperature derate (loss of output associated with increased outside temperature). This system will not only recover the lost power associated with ambient derate, but will also provide additional power by chilling the inlet air entering the gas turbine below its ISO rated point. This will provide additional power for a lower cost to the customers of the Grand River Energy Center.

"We are excited to continue our relationship with TIC and Kiewit, and appreciate knowing we will be assisting the Grand River Dam Authority in Oklahoma in supplying low cost efficient power to their residents. As the leader in turbine inlet chilling, we are constantly striving to improve efficiency and reduce cost. We are confident our packaged, modular design and cutting edge efficiency improvements will provide a reliable and valuable service," said Grumski.

TAS Energy will be manufacturing the equipment at their facility in Houston, TX.

TAS Energy Inc. is a global technology company that designs and manufactures modular energy conversion and cooling systems for the power generation industry; district, commercial and industrial process cooling; data center/mission critical; and the renewable energy sectors. TAS Energy specializes in high efficiency standard product designs optimized for high life cycle return performance. Its product capabilities include generation storage and turbine inlet chilling, chilled water systems, modular data centers and geothermal and industrial waste heat power generation solutions.