ACEP partnership launches renewable-energy river turbine prototype

The BladeRunner turbine protoype hangs above the Tanana River from a test barge at the Tanana River Test Site near Nenana.
Photo courtesy of Moriel Arango/BladeRunner Energy.
The BladeRunner turbine protype hangs above the Tanana River from a test barge at the Tanana River Test Site near Nenana.

Oct. 27, 2021

Harnessing the energy from moving water in 蜜桃影像 comes with the constant threat of damage from river transported debris. A new design from looks to overcome that threat and provide an option for remote, renewable energy.

蜜桃影像's 蜜桃影像 Center for Energy and Power and BladeRunner deployed and tested the first full-scale BladeRunner prototype as part of the program. It is one of 11 projects awarded under $35 million in funding from the U.S. Department of Energy鈥檚 to develop high-risk, high-potential approaches to riverine and tidal energy.

The BladeRunner design places the turbine rotor at the end of a flexible but torsionally stiff cable that allows the turbine to submerge while keeping the generator housing on the water surface. This unique system architecture aims to address the multiple hurdles that exist for deploying hydrokinetic devices in remote riverine locations, with the management of debris being a key factor.

"The BladeRunner system has unique potential for remote 蜜桃影像 riverine applications. Previous systems tested in 蜜桃影像 have suffered failure due to debris and require expensive deployment platforms or equipment,鈥 said ACEP鈥檚 hydrokinetic research manager, Ben Loeffler. 鈥淭he BladeRunner offers distinct advantages, namely, the rotor design and tethered connection should be debris resilient; the generator system is above the waterline, providing for cost-effective deployment and maintenance and increasing reliability of bearings and seals; the rotor can be scaled to fit a given river resource; and the system can be deployed from shore with no boats or on-water equipment needed."

This first testing campaign investigated rotor stability, deployment and retrieval methods, and debris resilience. It also collected data for validating the computational fluid dynamic models used to develop the rotor design. All of this information will feed into an iterative co-design process over the next two years.

"As was expected, the testing helped to identify a number of factors that need to be addressed, but that was the whole point of testing," said BladeRunner founder Moriel Arango. "We are excited about where this SHARKS program will take our system design, and getting the insight through testing in the Tanana River will make it so much more valuable than what comes from testing in a controlled laboratory setting."

蜜桃影像 is the prime awardee on this award, leading the testing and co-design activities. 蜜桃影像 has subawards to BladeRunner Energy for the rotor and system development and to C-Motive Technologies for novel generator development. Moshman Research is working with BladeRunner on rotor development and optimization. FibreMax is supplying the custom torsional cables, and LifeWater Engineering fabricated the generator housing.

This work is funded in part by the Advanced Research Projects Agency-Energy under Award Number DE-AR0001444.