NASA Technical Reports Server (NTRS) 20060004784: Optimal Design Of Passive Flow Control For A Boundary-Layer-Ingesting Offset Inlet Using Design-of-Experiments - Info and Reading Options
By NASA Technical Reports Server (NTRS)
"NASA Technical Reports Server (NTRS) 20060004784: Optimal Design Of Passive Flow Control For A Boundary-Layer-Ingesting Offset Inlet Using Design-of-Experiments" and the language of the book is English.
“NASA Technical Reports Server (NTRS) 20060004784: Optimal Design Of Passive Flow Control For A Boundary-Layer-Ingesting Offset Inlet Using Design-of-Experiments” Metadata:
- Title: ➤ NASA Technical Reports Server (NTRS) 20060004784: Optimal Design Of Passive Flow Control For A Boundary-Layer-Ingesting Offset Inlet Using Design-of-Experiments
- Author: ➤ NASA Technical Reports Server (NTRS)
- Language: English
Edition Identifiers:
- Internet Archive ID: NASA_NTRS_Archive_20060004784
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"NASA Technical Reports Server (NTRS) 20060004784: Optimal Design Of Passive Flow Control For A Boundary-Layer-Ingesting Offset Inlet Using Design-of-Experiments" Description:
The Internet Archive:
This research will investigate the use of Design-of-Experiments (DOE) in the development of an optimal passive flow control vane design for a boundary-layer-ingesting (BLI) offset inlet in transonic flow. This inlet flow control is designed to minimize the engine fan-face distortion levels and first five Fourier harmonic half amplitudes while maximizing the inlet pressure recovery. Numerical simulations of the BLI inlet are computed using the Reynolds-averaged Navier-Stokes (RANS) flow solver, OVERFLOW, developed at NASA. These simulations are used to generate the numerical experiments for the DOE response surface model. In this investigation, two DOE optimizations were performed using a D-Optimal Response Surface model. The first DOE optimization was performed using four design factors which were vane height and angles-of-attack for two groups of vanes. One group of vanes was placed at the bottom of the inlet and a second group symmetrically on the sides. The DOE design was performed for a BLI inlet with a free-stream Mach number of 0.85 and a Reynolds number of 2 million, based on the length of the fan-face diameter, matching an experimental wind tunnel BLI inlet test. The first DOE optimization required a fifth order model having 173 numerical simulation experiments and was able to reduce the DC60 baseline distortion from 64% down to 4.4%, while holding the pressure recovery constant. A second DOE optimization was performed holding the vanes heights at a constant value from the first DOE optimization with the two vane angles-of-attack as design factors. This DOE only required a second order model fit with 15 numerical simulation experiments and reduced DC60 to 3.5% with small decreases in the fourth and fifth harmonic amplitudes. The second optimal vane design was tested at the NASA Langley 0.3- Meter Transonic Cryogenic Tunnel in a BLI inlet experiment. The experimental results showed a 80% reduction of DPCP(sub avg), the circumferential distortion level at the engine fan-face.
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