NIOPLEX will contribute to the development of non-intrusive experimental flow diagnostics to improve the aerodynamic analysis capabilities in wind tunnels. The particular objective of the project is to develop an unprecedented comprehensive diagnostic approach, achieved by a simultaneous measurement of the surface pressure distribution on a model and the velocity and pressure field around it. Currently, Particle Image Velocimetry (PIV) is used as the major diagnostic technique to obtain the mean flow field and turbulent fluctuations. The surface pressure can be measured with Pressure Sensitive Paint (PSP), but there is essentially no means to conveniently access the pressure inside the flow. The present project focuses in particular on the method of "pressure measurement by PIV" and pursues how it can be developed to a stage that makes it ready for application to industrial problems. Comparison with PSP will determine if the PIV-based approach may be regarded as complementary to PSP or as a possible or partial replacement. The project ultimately aims to support the design of improved aeronautical transport systems by a better and more flexible flow-pressure diagnostics, suitable for aerodynamic performance and aero acoustic source analysis. These capabilities can impact the design process at an earlier stage with the use of additional experimental data during the development cycle.     «

NIOPLEX will contribute to the development of non-intrusive experimental flow diagnostics to improve the aerodynamic analysis capabilities in wind tunnels. The particular objective of the project is to develop an unprecedented comprehensive diagnostic approach, achieved by a simultaneous measurement of the surface pressure distribution on a model and the velocity and pressure field around it. Currently, Particle Image Velocimetry (PIV) is used as the major diagnostic technique to obtain the mean...    »