VIVACE (Vortex Induced Vibration Aquatic Clean Energy): A new concept in generation of clean and renewable energy from fluid flow MM Bernitsas, K Raghavan, Y Ben-Simon, EMH Garcia
788 2008 Experimental investigation of Reynolds number effect on vortex induced vibration of rigid circular cylinder on elastic supports K Raghavan, MM Bernitsas
Ocean Engineering 38 (5-6), 719-731, 2011
306 2011 High-damping, high-Reynolds VIV tests for energy harnessing using the VIVACE converter JH Lee, MM Bernitsas
Ocean engineering 38 (16), 1697-1712, 2011
244 2011 VIV and galloping of single circular cylinder with surface roughness at 3.0× 104≤ Re≤ 1.2× 105 CCJ Chang, RA Kumar, MM Bernitsas
Ocean Engineering 38 (16), 1713-1732, 2011
230 2011 KT, KQ and efficiency curves for the Wageningen B-series propellers MM Barnitsas, D Ray, P Kinley
University of Michigan, 1981
218 1981 The VIVACE Converter: Model Tests at High Damping and Reynolds Number Around MM Bernitsas, Y Ben-Simon, K Raghavan, EMH Garcia
209 2009 Virtual damper–spring system for VIV experiments and hydrokinetic energy conversion JH Lee, N Xiros, MM Bernitsas
Ocean Engineering 38 (5-6), 732-747, 2011
149 2011 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
144 2016 Enhancement of flow-induced motion of rigid circular cylinder on springs by localized surface roughness at 3× 104≤ Re≤ 1.2× 105 H Park, RA Kumar, MM Bernitsas
Ocean Engineering 72, 403-415, 2013
142 2013 2-D URANS vs. experiments of flow induced motions of two circular cylinders in tandem with passive turbulence control for 30,000< Re< 105,000 L Ding, MM Bernitsas, ES Kim
Ocean Engineering 72, 429-440, 2013
133 2013 Effect of mass-ratio, damping, and stiffness on optimal hydrokinetic energy conversion of a single, rough cylinder in flow induced motions H Sun, ES Kim, G Nowakowski, E Mauer, MM Bernitsas
Renewable Energy 99, 936-959, 2016
128 2016 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
124 2019 VIVACE (vortex induced vibration aquatic clean energy): a new concept in generation of clean and renewable energy from fluid flow MM Bernitsas, K Raghavan, Y Ben-Simon, EMH Garcia
International conference on offshore mechanics and arctic engineering 47470 …, 2006
113 2006 Performance prediction of horizontal hydrokinetic energy converter using multiple-cylinder synergy in flow induced motion ES Kim, MM Bernitsas
Applied energy 170, 92-100, 2016
110 2016 Fluid motion energy converter MM Bernitsas, K Raghavan
International. Provisional Patent Application, USA Patent and Trademark …, 2005
105 * 2005 Enhancement of vortex induced forces and motion through surface roughness control MM Bernitsas, K Raghavan
Vortex Hydro Energy, Inc., Ann Arbor, MI (United States), 2011
96 2011 Harvesting energy by flow included motions MM Bernitsas
Springer handbook of ocean engineering, 1163-1244, 2016
94 2016 Hydrokinetic energy conversion by two rough tandem-cylinders in flow induced motions: Effect of spacing and stiffness H Sun, C Ma, ES Kim, G Nowakowski, E Mauer, MM Bernitsas
Renewable Energy 107, 61-80, 2017
90 2017 Virtual spring–damping system for flow-induced motion experiments H Sun, E Soo Kim, MP Bernitsas, MM Bernitsas
Journal of offshore mechanics and arctic engineering 137 (6), 061801, 2015
86 2015 Simulation and stability of ship towing MM Bernitsas, NS Kekridis
International Shipbuilding Progress 32 (369), 112-123, 1985
85 1985 
Hai SunResearch Associate, University of Michigan; Associate Professor, Harbin Engineering University;E-mail confirmado em umich.edu
