CA3TCHProject reference: 686530
Funded under :
Comprehensive Aerodynamic-Aeroacoustic Analysis of a Trimmed Compound Helicopter
Total cost:EUR 799 000
EU contribution:EUR 799 000
Topic(s):JTI-CS2-2014-CFP01-FRC-02-01 - Support to the aerodynamic and aeroelastic analysis of a trimmed, complete compound R/C and related issues
Call for proposal:H2020-CS2-CFP01-2014-01See other projects for this call
Funding scheme:CS2-RIA - Research and Innovation action
CA³TCH considers the full external aerodynamic behaviour of a compound rotorcraft to be developed. Aerodynamics - and aeroacoustics as well - have to be investigated by full-featured simulations including coupling to structural simulation and flight mechanics. This “Digital Wind Tunnel” approach examines the performance of the projected aircraft long before first hardware exists. This allows to differentiate various alternatives as well as to drive the design process according to the detailed analysis of the flow field.
The primary goal of the project is to establish the simulation technology required to support productively the aerodynamic design and development of LifeRCraft, from rough estimates to detailed design and analysis at different flight states, until the point of first flight. Additionally, beyond the specific economic application to this compound configuration, the project will significantly improve the ability of helicopter simulations to answer particular questions in the development process, regarding aerodynamic or aeroacoustic optimisation, flight mechanics properties and even handling qualities to a certain extent. Publication and dissemination efforts will spread this enhanced capability to related areas, from fixed wings to wind turbines, just to name a few.
CA³TCH starts with some necessary tool enhancements and continues with the application to increasingly complex, detailed and refined configuration models. Afterwards, not only large-scale simulations will be run, rather a very large part of the project´s added value consists of the rigorous analysis and interpretation of the results obtained.
EU contribution: EUR 799 000