Prototype Aims to Reduce Fuel Use, Improve Tactical Vehicle Performance

Military vehicles move down a road at the Joint Readiness Training Center Operations Group in Fort Polk, Louisiana. (Photo: Army Capt. Joseph Warren)

The Defense Department maintains a fleet of more than 250,000 tactical vehicles, which frequently operate in austere conditions. These vehicles often spend as much of their operational time stationary as they do in motion, said Ben Richardson, director of the Defense Innovation Unit's advanced energy and materials portfolio. However, even when stationary, the engines must run in order to power the essential onboard electronics, as well as the heating and cooling systems in the crew compartments. This results in significant fuel consumption while the vehicle idles.

"By integrating an anti-idle capability into our existing fleet of tactical vehicles, the DOD has the opportunity to meaningfully reduce fuel consumption by its operational forces, enabling them to operate longer between refueling," Richardson said. "This also promises to reduce the amount of fuel that must be transported into combat zones, reducing the demand on, and risk to, logistics supply chains.

In August, the DIU and the Army's Project Manager Transportation Systems — part of the Program Executive Office for Combat Support and Combat Service Support — issued awards to XL Fleet and Volta Power Systems to integrate their commercial solutions into a prototype to idle-reduction some two-and-a-half to 10-ton trucks. Idle reduction technologies reduce fuel waste and engine wear. After demonstration and evaluation of the prototypes, the companies will be asked to develop and deliver a retrofit kit for fielding and easy installation by soldiers operating at logistics depots and motor pools across the force, Richardson said.

Beyond the fuel savings to be gained from the introduction of anti-idle capability, officials in the Program Executive Office for Combat Support and Combat Service Support also see this as a step toward further hybridization and electrification efforts.

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