Military surveillance planes could fly longer with new cooling breakthrough
Researchers have identified how to optimize cooling systems on long-endurance surveillance aircraft, potentially extending mission duration and reducing weight. The finding could cut energy use in military aviation while improving operational capability—a meaningful efficiency gain for defense contractors and military planners facing rising fuel costs.
Originaltitel: Parameter Tuning of a Vapor Cycle System for a Surveillance Aircraft
<p>Surveillance aircraft perform long-duration missions (>eight hours) that include detection and identification of objects on the ground, the water, or in the air. They have surveillance systems that require large amounts of cooling power (typically 10 s of kW) for long durations. For aircraft application, vapor cycle systems (VCS) are emerging as a more efficient alternative to conventional cooling systems. In this study, a two-part method was applied to a cooling system with a VCS that can be installed on a surveillance aircraft. The first part focused on a parameter tuning study set-up and demonstrated how after identifying the operating conditions, constraints, and requirements, the only cooling system parameter available for tuning was the VCS compressor speed. The second part focused on a modelling and solving strategy for the cooling system and showed how the capacity of an aircraft cooling system was impacted by tuning the VCS compressor speed (Hz) for a surveillance system heat flow rate from 10 kW to 70 kW. The results from this study can be used to design a control strategy for the compressor. In a broader perspective, the two-part method and the results analysis presented can serve as a preliminary method for aircraft VCS control optimization studies.</p>