Artikel dengan mandat akses publik - Michael BernitsasPelajari lebih lanjut
Tidak tersedia di mana pun: 17
A comprehensive review of nonlinear oscillators in hydrokinetic energy harnessing using flow-induced vibrations
Y Lv, L Sun, MM Bernitsas, H Sun
Renewable and Sustainable Energy Reviews 150, 111388, 2021
Mandat: US Department of Energy, National Natural Science Foundation of China
RANS simulation versus experiments of flow induced motion of circular cylinder with passive turbulence control at 35,000< Re< 130,000
W Wu, MM Bernitsas, K Maki
Journal of Offshore Mechanics and Arctic Engineering 136 (4), 041802, 2014
Mandat: US Department of Energy
Eigen-solution for flow induced oscillations (viv and galloping) revealed at the fluid-structure interface
MM Bernitsas, J Ofuegbe, JU Chen, H Sun
International Conference on Offshore Mechanics and Arctic Engineering 58776 …, 2019
Mandat: US Department of Energy
Sensitivity to zone covering of the map of passive turbulence control to flow-induced motions for a circular cylinder at 30,000≤ Re≤ 120,000
H Park, ES Kim, MM Bernitsas
Journal of Offshore Mechanics and Arctic Engineering 139 (2), 021802, 2017
Mandat: US Department of Energy
Numerical study on the effect of tandem spacing on flow-induced motions of two cylinders with passive turbulence control
L Ding, L Zhang, C Wu, E Soo Kim, MM Bernitsas
Journal of Offshore Mechanics and Arctic Engineering 139 (2), 021801, 2017
Mandat: US Department of Energy, National Natural Science Foundation of China
Selective surface roughness to suppress flow-induced motion of two circular cylinders at 30,000< Re< 120,000
H Park, MM Bernitsas, ES Kim
Journal of Offshore Mechanics and Arctic Engineering 136 (4), 041804, 2014
Mandat: US Department of Energy
Flow-Induced Vibration and Hydrokinetic Power Conversion of Two Staggered Rough Cylinders for 2.5 × 104 < Re < 1.2 × 105
W Xu, C Ji, H Sun, W Ding, MM Bernitsas
Journal of Offshore Mechanics and Arctic Engineering 140 (2), 021905, 2018
Mandat: US Department of Energy, National Natural Science Foundation of China
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
C Ji, W Xu, H Sun, R Wang, C Ma, MM Bernitsas
Journal of Offshore Mechanics and Arctic Engineering 140 (4), 041801, 2018
Mandat: US Department of Energy, National Natural Science Foundation of China
Effect of aspect ratio on hydrokinetic energy harnessing using cylinders in VIV
A Duranay, OK Kinaci, MM Bernitsas
Journal of Ocean Engineering and Marine Energy 8 (2), 217-232, 2022
Mandat: US Department of Energy
Hydrokinetic energy conversion by flow-induced oscillation of two tandem cylinders of different stiffness
W Yuan, H Sun, ES Kim, H Li, N Beltsos, MM Bernitsas
Journal of Offshore Mechanics and Arctic Engineering 143 (6), 062001, 2021
Mandat: US Department of Energy, National Natural Science Foundation of China
Flow-induced vibration (FIV) and hydrokinetic power conversion of two staggered, low mass-ratio cylinders, with passive turbulence control in the TrSL3 flow regime (2.5× 104 …
W Xu, C Ji, H Sun, W Ding, MM Bernitsas
International Conference on Offshore Mechanics and Arctic Engineering 57786 …, 2017
Mandat: US Department of Energy, National Natural Science Foundation of China
Two tandem cylinders with turbulence stimulation in FIV power conversion: CFD with experimental verification of interaction
W Ding, H Sun, W Xu, MM Bernitsas
International Conference on Offshore Mechanics and Arctic Engineering 57786 …, 2017
Mandat: US Department of Energy, National Natural Science Foundation of China
Envelope of power harvested by a single-cylinder vivace converter
J Liu, MM Bernitsas
International Conference on Offshore Mechanics and Arctic Engineering 56574 …, 2015
Mandat: US Department of Energy
Hydrokinetic energy conversion using a single-cylinder nonlinear oscillator in flow induced oscillations
MM Bernitsas, H Sun
Advances in Critical Flow Dynamics Involving Moving/Deformable Structures …, 2021
Mandat: US Department of Energy, National Natural Science Foundation of China
Numerical Simulation and Experiments of Flow-Induced Oscillations of Single-Cylinder With Large Passive Turbulence Control
N Li, H Park, H Sun, MM Bernitsas
International Conference on Offshore Mechanics and Arctic Engineering 84409 …, 2020
Mandat: US Department of Energy, National Natural Science Foundation of China
Modeling of a Hydrokinetic Energy Converter With Two Tandem Cylinders in Flow-Induced Oscillations
Y Lv, MM Bernitsas, S Hai
International Conference on Offshore Mechanics and Arctic Engineering 84416 …, 2020
Mandat: US Department of Energy, National Natural Science Foundation of China
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
C Ji, W Xu, H Sun, MM Bernitsas
International Conference on Offshore Mechanics and Arctic Engineering 57786 …, 2017
Mandat: US Department of Energy, National Natural Science Foundation of China
Tersedia di suatu tempat: 32
The VIVACE Converter: Model Tests at High Damping and Reynolds Number Around
MM Bernitsas, Y Ben-Simon, K Raghavan, EMH Garcia
Mandat: German Research Foundation
Numerical simulation and experimental validation for energy harvesting of single-cylinder VIVACE converter with passive turbulence control
L Ding, L Zhang, MM Bernitsas, CC Chang
Renewable Energy 85, 1246-1259, 2016
Mandat: US Department of Energy, National Natural Science Foundation of China
Flow-induced vibration of two elastically mounted tandem cylinders in cross-flow at subcritical Reynolds numbers
W Xu, C Ji, H Sun, W Ding, MM Bernitsas
Ocean Engineering 173, 375-387, 2019
Mandat: US Department of Energy, National Natural Science Foundation of China
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