דברו איתנו
סטיבן פרנקל

סטיבן פרנקל

אתר אינטרנט

Education

  • 1993 – Ph.D., Department of Mechanical and Aerospace Engineering, State University of New York at Buffalo
  • 1990 – M.Sc., Department of Mechanical and Aerospace Engineering, North Carolina State University
  • 1988 – B.Sc., Department of Mechanical and Aerospace Engineering, State University of New York at Buffalo

Research Interests

  • Computational Fluid Dynamics;
  • Turbulence;
  • Combustion;
  • Aeroacoustics;
  • Multiphase flows
  • Biological flows;
  • High performance parallel computing;
  • Quantum computing;

Honors

  • 1995 – 1998, Office of Naval Research Young Investigator Award
  • 2000, B.F.S. Schaefer Outstanding Young Faculty Scholar Award
  • 2008, Discovery in Mechanical Engineering Award
  • 2011, Cor Vitae Award, American Heart Association

Membership in Professional Societies

  • ASME
  • AIAA

Selected Publications

  1. Singh, V. and Frankel, S. H., “On the use of split forms and wall modeling to enable accurate high-Reynolds number discontinuous Galerkin simulations on body-fitted unstructured grids”, Computers and Fluids, 208, 104616, 2020.
  2. Pant, C. S., Delorme, Y., and Frankel, S. H., “Accuracy Assessment of RANS Predictions of Active Flow Control for Hydrofoil Cavitation”, Processes, 8(677), 2020.
  3. Linders, V., Nördstrom, J., and Frankel, S. H., “Properties of Runge-Kutta-Summation-By-Parts Methods”, Journal of Computational Physics, 419, 2020.
  4. Delorme, Y., Stanly, R., Frankel, S. H., and Greenblatt, D., “Application of Actuator Line Model for Large Eddy Simulation of Rotor Noise Control”, Aerospace Science and Technology, 108, 106405, 2021.
  5. Chamarthi, A. S. and Frankel, S. H., “High-Order Central-Upwind shock capturing scheme using a Boundary Variation Diminishing (BVD) Algorithm”, Journal of Computational Physics, 427, 110067, 2021.
  6. Singh, V., Frankel, S. H., and Nordstrom, J., “Impact of wall modeling on kinetic energy stability for the compressible Navier-Stokes equations”, Computers and Fluids, 220, 2021.
  7. Pant, C. S. And Frankel, S. H., “Interaction between surface blowing and re-entrant jet in active control of hydrofoil cavitation”, Ocean Engineering, 242, 110087, 2021.
  8. Stanly, R., Martinez-Tossas, L. A., Frankel, S. H., and Delorme, Y., “Large Eddy Simulation of Wind Turbines using Filtered Actuator Line Model”, Journal of Wind Engineering & Industrial Aerodynamics, 222, 104868, 2022.
  9. Chamarthi, A. S., Bokor, S. and Frankel, S. H., "On the importance of high-frequency damping in high-order conservative finite-difference schemes for viscous fluxes”, Journal of Computational Physics, 460, 111195, 2022.
  10. Chamarthi, A. S., Hoffmann, N., Nishikawa, H., and Frankel, S. H., “Implicit Gradients Based Conservative Numerical Scheme for Compressible Flows”, Journal of Scientific Computing, 95(17), 2023.
  11. Chamarthi, A. S., Chandravamsi, H., Hoffmann, N., Bokor, S., and Frankel, S. H., “On the role of spectral properties of viscous flux discretization for flow simulations on marginally resolved grids”, Computers and Fluids, 251, 105742, 2023.
  12. Chamarthi, A. S., Chandravamsi, H., Hoffmann, N., and Frankel, S. H., “On the Application of Gradient Based Reconstruction for Flow Simulations on Generalized Curvilinear and Dynamic Mesh Domains”, Computers and Fluids, 256, 105859, 2023.
  13. Meirom, D. and Frankel, S. H., “PANSATZ: Pulsed-based ansatz for variational quantum algorithms”, Volume 2, Frontiers in Quantum Science and Technology-Quantum Information Theory, 2023.
  14. Chamarthi, A. S., Hoffmann, N., and Frankel, S. H., “A Wave Appropriate Discontinuity Sensor Approach for Compressible Flows”, Physics of Fluids, 35, 066107 2023.
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