|
TITLE |
MAIN AUTHOR |
COMPANY |
| PS1-1 |
A Twin Unidirectional Turbine Topology for Wave Energy |
T. Setoguchi |
Saga University |
| PS1-2 |
The GESMEY Ocean Current Turbine. A proposal for marine current energy extraction on deeper waters |
Luis Ramon Nuñez Rivas |
E.T.S.Ingenieros Navales,
Technical University of Madrid (UPM) |
| PS1-3 |
A non-resonant, buoyancy-type wave energy converter |
Rhys Jenkins |
University of Southampton |
| PS1-4 |
Automatic system for Underwater Ocean Current Turbines. Application to GESMEY |
Jose A. Somolinos |
ETS I Navales. Universidad
Politécnica de Madrid |
| PS1-5 |
Tidal current turbine reliability: power take - off train models and evaluation |
C. ILIEV |
Heriot - Watt University, Edinburgh |
| PS1-6 |
The role of waves on tidal turbine unsteady blade loading |
Ian Milne |
The University of Auckland |
| PS1-7 |
Implementing Fast Multipole Algorithm
(DPMTA) into the Seakeeping
Diffraction/Radiation Code Aquaplus
for the Simulation of Wave Energy
Converters Farms. |
Bruno Borgarino |
Laboratoire de Mécanique des Fuides, École Centrale de Nantes |
| PS1-8 |
On the consequences of fixed-force control strategies on the efficiency of hydrostatic transmissions |
Yukio Kamizuru |
Institute for Fluid Power Drives and Controls of RWTH Aachen University |
| PS1-9 |
Control Strategy of Wave Energy
Converters Optimized Under Power
Electronics Rating Constraints.
|
Elisabetta Tedeschi |
Norwegian University of
Science and Technology |
| PS1-10 |
A Frequency-Response Design Method for the Control of Wave Energy Converters in Irregular Seas |
Andrew P. McCabe |
Lancaster University |
| PS1-11 |
Neural control of OWC-based Wave Power Generation Plant |
Aitor J. Garrido |
UNIVERSITY OF THE BASQUE COUNTRY |
| PS1-12 |
Conception of a Radial Impulse Turbine for an oscillating water column |
Bruno Pereiras |
Energy and Fluids Mechanics Engineering Department. University of Valladolid |
| PS1-13 |
Hybrid Modeling for Optimal Control of a Linear Switched Reluctance Generator Used in a Direct Drive Wave Energy Converter |
Mario Vasak |
Faculty of Electrical Engineering and Computing, University of Zagreb |
| PS1-14 |
The original renewable Wave Energy-Store System and NS-NRMEF Project |
Kao I-Nan |
CHUENWAY ELECTRONIC CO., LTD. |
| PS1-15 |
Numerical modeling of fully nonlinear interactions of ocean waves with a submerged moving body |
Etienne Guerber |
EDF R&D |
| PS1-16 |
Electric Linear Generator to optimize a Point Absorber Wave Energy Converter |
Marcos Blanco |
CIEMAT |
| PS1-17 |
Radial Turbine with Pitch-controlled Guide Vanes for Wave Energy Conversion |
Manabu Takao |
Matsue College of Technology |
| PS1-18 |
HYDRODYNAMIC PERFORMANCE OF TWO-BODY HEAVING WAVE ENERGY CONVERTERS |
Jonathan Van Den Berg |
TECNALIA |
| PS1-19 |
A computational study of a bi-directional ducted tidal turbine |
Clarissa Belloni |
University of Oxford |
| PS1-20 |
APC-PISYS MULTIPLE TECHNOLOGY SYSTEM BY PIPO SYSTEMS |
ABEL CUCURELLA |
PIPO SYSTEMS |