The innovations within GRETEL have strong technical impacts regarding the knowledge about highly integrated lightweight morphing – adaptive wing structures. These innovations contribute towards a realization of a dependable and lightweight aircraft wing system that meet the Regional and Large Passenger Aircraft IADP objectives for system flight test campaign. The project utilized advanced aerodynamic and aeroelastic design tools that allowed simultaneous aerodynamic and structural analysis – optimization, optimal wing geometry throughout all flight regimes (morphing wing design). This capability is expected to enable reduction of development time and consequently reduction of development costs.
The solutions developed in GRETEL focus on the importance of structural integration, which is the main limiting factor in the industrial and economical exploitation of conformal morphing. This delivered direct impacts for next generation aircrafts development increase knowledge on flow enhancement and control technologies implementation, enable new breakthrough design approaches for composite aircraft fleets and confirm the testing feasibility of a highly integrated flexible wing model through Wind Tunnel Testing.
The ecological impact of the GRETEL project is mainly on increasing aerodynamic efficiencythrough the realization of novel wing structures with enhanced aerodynamic efficiency. These, in turn, are expected to offer significantly reduced in field fuel consumption.
Overall, GRETEL technological and innovative methodologies with respect to design, analysis, manufacturing, and integration of morphing devices supports the 2050 objectives of the European Commission for the aviation industry: reduce CO2 by 75% and NOx emissions by 90%.
In terms of socio-economic impact, regional aviation plays a very important role in contemporary air transports. Currently non-European actors lead the growing regional aircraft market. To increase the market share for European manufacturers, technological developments and innovation are required to improve the competitiveness of the offered products. To be competitive on the European market, cost-effectiveness and environmental aspects must be covered.
According to various studies, around 30% of all passengers are travelling short distances of 500km or less. On these routes a turboprop aircraft (like addressed via GRETEL) requires only about half of the fuel compared with a jet while the duration of flight is nearly the same. Equipped with innovative techniques to further decrease fuel consumption this re-opens the path for turboprop machines.
Looking from a market perspective, one of the major impacts of the GRETEL project is the reinforcement of the competitiveness of Europe’s aircraft industry and European aircraft operators. This is in full alignment with the European Union strong focus on innovation as a basis for societal growth and prosperity, as well as the emphasis placed on the R&D impact on job creation, societal growth and investment associated with the creation of a strong industrial base and on reducing the environmental impact of technology in line with a forward-looking climate change policy.