Richard Buckius

Richard Buckius

Professor of Mechanical Engineering

Location: West Lafayette

School of Mechanical Engineering
Purdue University
585 Purdue Mall
West Lafayette, IN 47907-2088

Office: WANG 4052

Phone: +1 765 49-68229

Selected Publications

Moser, K. W., E. C. Kutter, J. G. Gerogiadis, R. O. Buckius, H. D. Morris and J. R. Torczynski, “Velocity Measurements in Pipes with Sudden Contractions and Expansions Using Magnetic Resonance Imaging,” Experiments in Fluids, 29, pp. 438-447, 2000.

Moser, K. W. J. G. Georgiadis, and R. O. Buckius, “On the Accuracy of EPI-Based Phase Contrast Velocimetry,” Magnetic Resonance Imaging, 18:9, pp. 1115-1123, 2000.

Tang, K., and R. O. Buckius, “A Statistical Model of Wave Scattering from Random Rough Surfaces,” International Journal of Heat and Mass Transfer, 44, pp. 4059-4073, 2001.

Moser, K. W., J. G. Georgiadis, and R. O. Buckius, “On the Use of Optical Flow Methods with Spin-Tagging Magnetic Resonance Imaging,” Annals of Biomedical Engineering, 29, 1-9, 2001.

Holdych, D. J., J. G. Georgiadis and R. O. Buckius, “Migration of a van der Waals Bubble: Lattice Boltzmann Formulation,” Physics of Fluids, 13:4, 817-825, 2001.

Kawka, P. A. and R. O. Buckius, “Optical Properties of Polyimide Films in the Infrared,” International Journal of Thermophysics, 22:2, pp. 517-534, 2002.

Holdych, D. J., D. R. Noble, J. G. Georgiadis, and R. O. Buckius, “Truncation Error Analysis of Lattice Boltzmann Methods,” J. of Computational Physics, 193, 595-619, 2004.

Holdych, D. J., J. G. Georgiadis, and R. O. Buckius, “Hydrodynamic Instabilities of Near-Critical CO2 Flow in Micro-channels: Lattice Boltzmann Simulation,” Physics of Fluids, 16:5, 1791-1802, 2004.

He, J, W.-L. Cheng, and R. O. Buckius, “Wide Band Cumulative Absorption Coefficient Distribution Model for Overlapping Absorption in H2O and CO2 Mixtures,” International Journal of Heat and Mass Transfer, 51, 1115-1129, 2008.

He, J, and R. O. Buckius, “Improved Band Parameters for a Simplified Wide Band Cumulative Absorption Coefficient Distribution Model for H2O and CO2,” International Journal of Heat and Mass Transfer, 51, 1467-1474, 2008.