The NextGenCTR is called to safely operate in harsh environmental conditions, characterized by contaminated air-flow (dust, ash, sand, salt and moisture) and icing conditions. To achieve this goal, the Clean Sky 2 project TRIcEPS developed an air-intake with integrated engine protection systems, which was geared on two key enabling technologies:
• a removable thermoelectric ice protection system based on the heater layer technology.
• a vortex tubes filter for protecting the engine from ingestion of particles in harsh environment.
TRIcEPS low-power IPS was designed to protect the engine intake during flight in CS 29 Appendix C icing conditions and the total power for both nacelle was 10.6 kW, half of the power budget of similar applications . A scaled version has been manufactured and tested in the icing wind tunnel to verify its performances and to identify possible improvements. Two full systems have been delivered to LHD.
TRIcEPS vortex tubes filters were designed, manufactured, tested and delivered to LHD. During the qualification tests we achieved a separation efficiency of 97%, much higher than the 95% specified in the LHD technical requirements.
Finally, TRIcEPS designed, manufactured, and delivered three air intakes in CFRP, which included a by-pass mechanism, or flow selector, to activate either the dynamic intake for efficient forward flight or the filters to protect the engine against particles ingestion.