OTRC Principal Investigator Publication Listing

Principal Investigator:

John Kallinderis

Journal Articles, Reports and Conference Papers

Hyung Taek Ahn and Yannis Kallinderis, (2006) “Strongly coupled flow/structure interactions with a geometrically conservative ALE scheme on general hybrid meshes” Journal of Computational Physics, In Press, Corrected Proof, Available online 12 June 2006.

Y. Kallinderis and H.T. Ahn, “Incompressible Navier–Stokes method with general hybrid meshes”, Journal of Computational Physics, Volume 210, Issue 1, 20 November 2005, Pages 75-108

H.T. Ahn and Y. Kallinderis, “CFD Investigation of the Effect of Ocean Turbulence on the Hydrodynamic Forces on a Cylinder.” 24th ASME International Conference on Offshore Mechanics and Arctic Engineering, June 12-17, 2005, Halkidiki, Greece.

Y. Kallinderis and H.T. Ahn, “Strongly Coupled Fluid-Structure Interactions via a New Navier-Stokes Method for Prediction of Vortex-Induced Vibrations,” 24th ASME International Conference on Offshore Mechanics and Arctic Engineering, June 12-17, 2005, Halkidiki, Greece.

W. Jester and Y. Kallinderis, “ Numerical Study of Incompressible Flow about transversely Oscillating Cylinder Pairs”, J. of Offshore Mechanics and Arctic Engineering, Vol. 126, February 2004.

Jester, W., Kallinderis, Y., (2000). "Numerical Study of Incompressible Flow about Fixed Cylinder Pairs," Journal of Fluids and Structures.

Schulz, K., Kallinderis, Y., “Unsteady Flow Structure Interaction for Incompressible Flows Using Defomable Hybrid Grids,” Journal of Computational Physics, Vol. 143, pp. 569-597, 1998.

Schulz, K., Kallinderis, Y., “Numerical Prediction of Flow-Structure Interaction for Cylinders Undergoing VIV,” Offshore Technology Conference, Houston, TX, May 4-7, 1998.

Shulz, K. and Kallinderis, Y., “Unsteady Flow Structure Interaction for Incompressible Flows Using Hybrid Grids,” Paper AIAA-97-0334, January 1997. 

Chen, A. and Kallinderis, Y., “Adaptive Hybrid Grids for 3-D Incompressible Flows,” Paper AIAA-96-0293, January 1996.

Minyard, T. and Kallinderis, Y., “A Parallel Navier-Stokes Method and Grid Adapter with Hybrid Prismatic/Tetrahedral Grids,” Proceedings of the 33rd Aerospace Sciences Meeting and Exhibit, Reno, Nevada, January 9-12, 1995.

Nakajima, K. and Kallinderis, Y., "Comparison of Finite Element and Finite Volume Methods for Incompressible Viscous Flows," AIAA Journal (in press), 1994.

Nakajima, K., Sibetheros, I., Miksad, R.W., Kalllinderis, J. and Lambrokas,K.,  "A Numerical Study of the Hydrodynamics of Reversing Flows Around a Cylinder,"  Proceedings of the 13th Offshore Mechanics and Arctic Engineering Conference, Houston, March 1994.

Nakajima, Kengo, “Unsteady Flow Simulations Using Adaptive Hybrid Grids,” OTRC Report, May 1993.

Kallinderis, Y. and Nakajima K., "A Finite-Element Method for the Incompressible Navier-Stokes Equations with Adaptive Hybrid Grids," AIAA Paper 93-3005, July 1993. Kallinderis, Y. and Nakajima, K., "An Incompressible Navier-Stokes Method with Adaptive Hybrid Grids," OTRC Report, 1992.

Theses and Dissertations 

H.T. Ahn., “A new incompressible Navier-Stokes Method with General Hybrid Meshes and its application to fluid-structure interactions,” PhD dissertation, Dept. of Aerospace Engineering & Engineering Mechanics, The University of Texas at Austin, Austin, TX. May 2005.