To secure European global leadership in aviation, while also responding to societal needs, the ‘FlightPath 2050’ report identified targets of 75% fuel reduction, 65% perceived noise and 90% landing/take-off NOx emissions by 2050. Ultra High Bypass Ratio (UHBR) engines offer propulsive efficiency improvements and potential fuel burn reduction. However, UHBR engines typically have a larger diameter which can increase nacelle drag and weight and reduce fuel burn benefits. There is a need to develop the technologies to design compact nacelles and to integrate with an airframe to reduce fuel burn, meet noise requirements and operate at both design and off-design conditions.
The ODIN project objectives are as follows:
• Deliver aerodynamic design guidelines for UHBR novel nacelles which take into account off-design performance including external cowl separation at low-speed, high-lift conditions
• Deliver detailed understanding of installed UHBR nacelle off-design performance.
• Establish a highly instrumented, nacelle section rig to take innovative measurements of the flow physics of nacelles at off-design conditions.
• Quantify the effect of close-coupled integration with the wing on the exhaust system under low-speed, high-lift conditions when the exhaust is operating at low flow rates
• Evaluate design constraints imposed by noise levels at take-off, approach and cruise by combining the tools of computational aero-acoustics and experiments.
• Deliver guidance on the arrangements for acoustic sensor for a Flight Test Demonstrator for the validation of acoustic numerical simulations
The main objectives, both computational and experimental, relating to the nacelle aerodynamic design and exhaust suppression have been achieved. There have been notable advances around the computational and experimental aspects of the jet noise and jet flap interaction theme within ODIN. The wind tunnel tests identified conditions, and instrumentation, in which useful noise data could potentially be acquired on an aerodynamic test rig configuration. Unsteady simulations have been successfully carried out for an aircraft configuration and linked to the results from the transonic rig testing.