Michael M. Bernitsas
Affiliations: | University of Michigan, Ann Arbor, Ann Arbor, MI |
Area:
Civil Engineering, Marine and Ocean EngineeringGoogle:
"Michael Bernitsas"Children
Sign in to add trainee| Bhineka M. Kristanto | grad student | 2003 | University of Michigan |
| Libin Miao | grad student | 2004 | University of Michigan |
| Joao P. Matsuura | grad student | 2005 | University of Michigan |
| Kamaldev Raghavan | grad student | 2007 | University of Michigan |
| Che-Chun Chang | grad student | 2010 | University of Michigan |
| Jonghun Lee | grad student | 2010 | University of Michigan |
| Hongrae Park | grad student | 2012 | University of Michigan |
BETA: Related publications
See more...
Publications
|
You can help our author matching system! If you notice any publications incorrectly attributed to this author, please sign in and mark matches as correct or incorrect. |
| Ding W, Sun H, Xu W, et al. (2019) Numerical investigation on interactive FIO of two-tandem cylinders for hydrokinetic energy harnessing Ocean Engineering. 187: 106215 |
| Xu W, Ji C, Sun H, et al. (2019) Flow-induced vibration of two elastically mounted tandem cylinders in cross-flow at subcritical Reynolds numbers Ocean Engineering. 173: 375-387 |
| Sun H, Ma C, Kim ES, et al. (2019) Flow-induced vibration of tandem circular cylinders with selective roughness: Effect of spacing, damping and stiffness European Journal of Mechanics - B/Fluids. 74: 219-241 |
| Sun H, Bernitsas MM. (2019) Bio-Inspired adaptive damping in hydrokinetic energy harnessing using flow-induced oscillations Energy. 176: 940-960 |
| Ji C, Xu W, Sun H, et al. (2018) Interactive Flow-Induced Vibrations of Two Staggered, Low Mass-Ratio Cylinders in the TrSL3 Flow Regime (2.5 × 104 < Re < 1.2 × 105): Smooth Cylinders Journal of Offshore Mechanics and Arctic Engineering-Transactions of the Asme. 140: 41801 |
| Xu W, Ji C, Sun H, et al. (2018) Flow-Induced Vibration and Hydrokinetic Power Conversion of Two Staggered Rough Cylinders for 2.5 × 104 < Re < 1.2 × 105 Journal of Offshore Mechanics and Arctic Engineering-Transactions of the Asme. 140: 21905 |
| Wu W, Sun H, Lv B, et al. (2018) Modelling of a hydrokinetic energy converter for flow-induced vibration based on experimental data Ocean Engineering. 155: 392-410 |
| Zhang D, Sun H, Wang W, et al. (2018) Rigid cylinder with asymmetric roughness in Flow Induced Vibrations Ocean Engineering. 150: 363-376 |
| Sun H, Ma C, Bernitsas MM. (2018) Hydrokinetic power conversion using Flow Induced Vibrations with cubic restoring force Energy. 153: 490-508 |
| Sun H, Ma C, Bernitsas MM. (2018) Hydrokinetic power conversion using Flow Induced Vibrations with nonlinear (adaptive piecewise-linear) springs Energy. 143: 1085-1106 |