Correlation of a Velocity Potential-Based Finite State Inflow Model with Experimental Data in Full and Inclined Ground Effect
F-0082-2026-0153
5/5/2026
- Content
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A velocity potential-based finite state model (VPBFSM) has been developed to analyze an isolated rotor in ground effect. The model represents the ground using mass source distributions and imposes the non-penetration of flow boundary condition at the ground. In this paper, VPBFSM predictions of the inflow distribution are compared with experimental results for full and inclined ground effect cases using a model-scale rotor. The VPBFSM shows good agreement with the experimental results and captures the expected trend of decreasing inflow as the rotor approaches the ground, with a larger reduction on the side closest to the ground. Differences in magnitude are observed, but remain acceptable and are attributed to reduced-order modeling assumptions in the VPBFSM and uncertainty in the experimentally derived inflow measurements.
- Citation
- Metry, A., Raghav, V., Vijayaraj, A., Moore, Z., et al., "Correlation of a Velocity Potential-Based Finite State Inflow Model with Experimental Data in Full and Inclined Ground Effect," Vertical Flight Society 82nd Annual Forum and Technology Display, West Palm Beach, Florida, May 5, 2026, https://doi.org/10.4050/F-0082-2026-0153.