Massive Parallelisation and Performance Enhancement of an Immersed Boundary Method Based Unsteady Flow Solver
Author:
Publisher
Springer Nature Singapore
Link
https://link.springer.com/content/pdf/10.1007/978-981-97-1033-1_38
Reference25 articles.
1. Lewin GC, Haj-Hariri H (2003) Modelling thrust generation of a two-dimensional heaving airfoil in a viscous flow. J Fluid Mech 492:339
2. Khalid MSU, Akhtar I, Dong H, Ahsan N, Jiang X, Wu B (2018) Bifurcations and route to chaos for flow over an oscillating airfoil. J Fluids Struct 80:262–274
3. Lai JCS, Platzer MF (1999) Jet characteristics of a plunging airfoil. AIAA J 37(12):1529–1537
4. Shelley MJ, Zhang J (2011) Flapping and bending bodies interacting with fluid flows. Ann Rev Fluid Mech 43:449–465
5. Young J, Lai JCS (2007) Vortex lock-in phenomenon in the wake of a plunging airfoil. AIAA J 45(2):485–490
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