After initial de-risking in work package (WP) 2, a multi-camera approach based on conventional PIV was selected. A fully automated system with remote control of the camera focus, Scheimpflug angle and axis has been developed in WP3. The system allows calibration of multiple configurations in a single pass and recall of stored configurations during testing for increased productivity.
To validate the NIFTI PIV and processing innovations, a phased experimental approach was used in WP4. Moving from laboratory scale system development, wind tunnel pre-testing at small scale, to a final verification wind tunnel test in the industrial DNW-LLF.
In parallel, novel data reduction and post-processing strategies were explored in WP5. Advanced PIV processing options such image background removal and pressure reconstruction from PIV velocity fields were refined for the application within the inlet. A comprehensive library was created to analyse the inlet flow data collected during the various experimental and computational campaigns. To support the development of post-processing techniques and guide the design of the wind tunnel tests, advanced CFD models of both the aspirated and fan powered wind tunnel geometries were developed.
The work performed has resulted in an innovative new flexible geometry PIV system, that offers many possibilities for future exploitation in testing environments requiring high productivity. The system has been employed to generate a unique experimental dataset of fan-coupled intake aerodynamics at off-design conditions. This has resulted in new insights into the aerodynamics of short inlets which allows many paths for further dissemination. Additionally, NIFTI has resulted in improved processing techniques, that allow reduction of complex flow data into meaningful inlet metrics that define the unsteady inlet flow distortions. Finally, significant advancements in the development of numerical tools for inlet and fan-inlet simulations have been achieved. Together with a unique experimental validation data set, these will result in further advancements beyond the project lifetime that the consortium plans to exploit and disseminate.