Modeling a Maintenance Free Operating Period Strategy for Future Vertical Lift
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Authors
Beigh, Matthew
Burgess, James
Schrage, Daniel
Bellocchio, Andrew
Issue Date
2020
Type
proceedings-article
Language
Keywords
Future Vertical Lift (FVL) , Maintenance Free Operating Period (MFOP)
Alternative Title
Abstract
The U.S. Department of Defense has begun the acquisition of the next generation of military rotorcraft, named Future Vertical Lift (FVL), to replace its aging fleet. U.S. Army Futures Command intends to sustain FVL under a new strategy of maintenance free operating periods (MFOP). This study developed a discrete event simulation to evaluate MFOP success given component reliabilities, desired MFOP duration, and operational tempo of a battalion with thirty aircraft. The simulation compared notional FVL aircraft with improved reliability to today's fleet. Results indicated that inherent reliability alone was insufficient to achieve MFOP goals and that prognostics and diagnostics with robust information management are necessary. Sensitivity studies found the recovery effort after an MFOP was linked to the MFOP duration. Recovery downtime was tied to both the duration and operational tempo. Availability and cost improved with moderate gains in MFOP duration by eliminating unnecessary preventive maintenance but overextending the MFOP sacrificed aircraft dependability for marginally greater availability and savings.
Description
Citation
United States Military Academy et al., “Modeling a Maintenance Free Operating Period Strategy for Future Vertical Lift.”
Publisher
The Vertical Flight Society