This section reports a concise summary of the work carried out per WP, from WP1 to WP4. WP5 and WP6 are not reported since they are non-technical.
In WP1, the state-of-the-art capability for inflight icing simulations has been established and experience has been gathered in carrying out simulations with wind tunnels, full aircraft, and part aircraft. A phenomenological model of icing surface liquid has been developed, implemented in the 3D icing multi-shot workflow, and validated. Moreover, a response surface has been developed for the ARE, to input this in WP3, and account for icing effects in the aero structural optimization workflow.
In WP2, commercially available passive anti-icing coatings are characterized in the lab according to a TRL 3 assessment program, split into 3 rounds of assessment. Based on the results achieved in the lab, coatings have been ranked, and best-performing coatings scaled up for the Icing Wind Tunnel TRL 5 characterization campaign.
In WP3, a preliminary aerodynamic investigation to define the key parameters affecting the aerodynamic characteristics of the proposed ARE concept has been performed through CFD-RANS simulations. A knowledge-based parametrization approach has been developed for both the fuselage cross-section manipulation and tailplane and LEX device. A first optimized fuselage and tail and LEX arrangement has been achieved, and the effects of icing on the ARE (including LeX) are included from WP1. Finally, WP3 has released a full multi-disciplinary optimization workflow and toolset (i.e. JPAD).
In WP4, the icing wind tunnel test campaign has been executed over 10 wind tunnel days, of which 8 icing days (2 days on a NACA 23012 straight profile, and 6 days on a NACA 3421 swept profile – straight and undulated leading edge), resulting in producing 36 icing points. The model manufacturing (NACA 3421) has been subject to multiple delays, shifting the D4.1 from Aug. 2022 to March 2023. However, the consortium has managed to perform the campaign in the allocated slot (25/10/2022 07/10/2022), matching in full its technical objectives.