Ira A. Fulton Schools of Engineering
Integrative Simulations & Computational Fluids Lab

Research goals of our group are to advance modern physics-based computational capabilities as applied to turbulent flows and multi-physics systems, so that the most accurate, high fidelity representation of these systems could be obtained. The knowledge thus extracted is used to enhance our scientific understanding and improve the engineering processes in these systems. We use an integrative approach to research, involving development of high-order methods for challenging problems, fundamental analysis of turbulence, and applications in the fields of wind energy, aerospace, and bio-fluid mechanics.

Five recent publications

D. J. Coxe, Y. T. Peet and R. J. Adrian (2024), "Location and Scales of Drag Reduction in Turbulent Pipe Flow with Wall Oscillations at Low Reynolds Number", Physical Review Fluids, vol. 9, pp. 114601: 1-23 [.pdf]

Y. T. Peet and M. M. Peet (2024), "A New Treatment of Boundary Conditions in PDE Solution with Galerkin Methods via Partial Integral Equation Framework", Journal of Computational and Applied Mathematics, vol. 442, pp. 115673: 1-29 [.pdf]

A. Abouhussein and Y. T. Peet (2023), "Optimized Hydrodynamic Interactions in Phalanx School Arrays of Accelerated Thunniform Swimmers", Physica Scripta, vol. 98, No. 3, pp. 035010:1-16 [.pdf]

F. Zhang and Y. T. Peet (2023), "Coherent Motions in a Turbulent Wake of an Axisymmetric Bluff Body", Journal of Fluid Mechanics, vol. 962, pp. A19:1-29 [.pdf]

F. Zhang and Y. T. Peet (2023), "Discontinuous Galerkin Spectral Element Method for Shock Capturing with Summation by Parts Properties", Journal of Computational Physics: X, vol. 17, pp. 100123:1-26 [.pdf]

All publications