Periodic Reporting for period 2 - HE-ART (Hybrid Electric propulsion system for regional AiRcrafT)
Periodo di rendicontazione: 2023-07-01 al 2023-12-31
While enabling rather than limiting new sources of energy in aviation, an ambitious path to reduction of greenhouse gases and the pathway to a cleaner and greener aviation for regional flights is built upon three pillars:
• Electric hybridization
• An ultra-efficient turboprop thermal engine
• 100% SAF compatibility
HE-ART will be a first step on the path to hybridization of regional aircraft and a reduction of GHG. This will be accomplished by achieving a strategic global objective of demonstrating, within 36 months, the viability of a hybrid electric thermal turboprop (e-TP) within the scope of a dedicated integrated ground test demonstrator. HE-ART will build on existing state of the art integrating the following technologies into the demonstrator:
• Core thermal engine
• Electric motor and power electronics
• Gearbox
• Propeller
• Nacelle and heat exchanger
This will be executed in conjunction with the Top-Level Aircraft Requirements that will be defined in parallel by other Clean Aviation research projects. To ensure that these requirements are met in full, HE-ART brings together the leading engine manufacturers, Rolls Royce and Safran with leading airframers, ATR, Airbus and Leonardo along with key manufacturers and research organisations.
Concerning the studies for the Hybrid-Electric Regional Aircraft, Hybrid-Electric Power System requirements were received from the CA project HERA. Based on this, Aircraft and Power Plant preliminary architecture studies and optimization were performed. Preliminary propulsive data were then provided back to HERA.
Concerning the eTP Ground Demonstration, the concept design and the architecture of the Hybrid-Electric Propulsion System were completed. Subsequently, the main interfaces of the technology bricks and the propulsion system were agreed and frozen. A detailed Preliminary Design Review was successfully conducted which strengthen the selected concept and the architecture. Finally and consequently, long lead-time items were identified and securing of the supply was organized.
This will be achieved in 3 main steps.
1) To build the EIS 2035 vision:
Starting from 2020 state-of the art and TRA01 trade-off results, the first objective will be to define an ambitious but realistic technical vision, taking benefit of an exploration phase jointly performed by major airframers, engine suppliers and RTO’s.
2) To ground test and validate Key technologies:
With the major ambition to demonstrate, within 36 months, the viability of a hybrid electric thermal turboprop (e-TP) within the scope of a dedicated integrated ground test demonstrator.
To achieve this, HE-ART will bring together existing technologies, highly innovative COTS and advanced new designs for the component parts, into a fully integrated test bench that will demonstrate the flightworthiness of a hybrid e-TP motor.
Additionally, other key enabling technologies will be ground tested separately to confirm their enhanced capacities or to solve specific technological barriers.
3) To reconcile Ground test outcomes and EIS 2035 vision:
To confirm the relevancy of the technical vision, to demonstrate by mean of digital twin the scalability of the selected technologies and to foster synergies with other aviation sectors. This will be a solid way to maximize the impact of the research outcome and to set up realistic technology readiness roadmaps towards Flight Tests (TRL6) and EIS (TRL9).