10 |
Sustainable concrete for structural elements of ocean energy devices |
JAN SUCHORZEWSKI |
RESEARCH INSTITUTES OF SWEDEN |
Cost reduction and reliability improvement through innovative materials. |
11 |
Hexagonal Distributable Embeddable Energy Converters |
JAMES NIFFENEGGER |
UNITED STATES NATIONAL RENEWABLE ENERGY LABORATORY |
Cost reduction and reliability improvement through innovative materials. |
12 |
Evaluation of damped and undamped mooring forces through field data and numerical model comparison |
DIEGO MIGUEZ |
OFFSHORE RENEWABLE ENERGY CATAPULT – MEECE |
Critical components and systems (moorings, foundations, connection, etc.). |
13 |
Determination of heat exchanger geometry for OTEC based on net power maximization |
KEVIN FONTAINE |
INSTITUTE OF OCEAN ENERGY, SAGA UNIVERSITY |
Critical components and systems (moorings, foundations, connection, etc.). |
14 |
Battery ageing analysis for the dimensioning of an energy storage system to smooth power output of a wave energy system |
MARCOS BLANCO |
CIEMAT |
Design of arrays and farms. |
15 |
Modelling unsteady loading on a floating tidal stream turbine using blade-element momentum and large-eddy simulation |
PABLO OURO |
THE UNIVERSITY OF MANCHESTER |
Design of arrays and farms. |
16 |
Concept design of undersea pumped hydro energy storage system for co-location with wave energy array |
TIM MUNDOM |
BRAYTON ENERGY |
Design of arrays and farms. |
17 |
Reducing uncertainty in WEC extreme load estimates via goodness-of-fit testing |
MICHELE MARTINI |
YAVIN FOUR CONSULTANTS LDA |
Design optimisation and tool development. |
18 |
Influencing wave energy device design through lifecycle assessment: the role of ocean energy in supporting the circular economy |
SHONA PENNOCK |
UNIVERSITY OF EDINBURGH |
Design optimisation and tool development. |
19 |
Selkie Project – open access, multi-use tools |
SELKIE |
UCC/MAREI |
Design optimisation and tool development. |
20 |
Using magnetic coupling and a linear to rotational mechanism in a heave only wave energy point absorber |
JONATHAN EVERETT |
UNIVERSITY OF AUCKLAND |
Design optimisation and tool development. |
21 |
Collaborative Technology Performance Level Assessments of Wave Energy Converters and Farms |
WILLIAM PEPLINSKI |
SANDIA NATIONAL LABORATORIES |
Design optimisation and tool development. |
22 |
Control Co-Design of a Realistic Wave Energy Converter |
MARKEL PENALBA |
MONDRAGON UNIVERSITY |
Design optimisation and tool development. |
23 |
On the importance of simulation methods for ocean energy technology at different stages of development |
JOHANNES PALM |
SIGMA ENERGY & MARINE AB |
Design optimisation and tool development. |
24 |
Analytical Operation and Maintenance Optimisation tool for Ocean Energy Systems |
MANU CENTENO |
MONDRAGON UNIBERTSITATEA |
Improving installation, operation and maintenance. |
25 |
A Resilient Debris-Compliant Hydropower Generator for Riverine Use in Remote Areas |
WILLIAM BAXLEY |
FLORIDA ATLANTIC UNIVERSITY SNMREC |
Improving installation, operation and maintenance. |
26 |
Fatigue damage analysis of composite materials used in a 1 MW tidal turbine blade |
AFROOZ KAZEMI VANHARI |
NATIONAL UNIVERSITY OF IRELAND GALWAY |
Laboratory testing and numerical modelling. |
27 |
A study of turbine performance under unsteady conditions in Australian prospective tidal energy sites through a Blade Element Momentum model using high-frequency field data |
LARISSA PEREZ |
DYNAMOCEAN |
Laboratory testing and numerical modelling. |
28 |
Methodology for the life calculation of tidal turbine blades under damage tolerance consideration |
DANIEL CASERES NARANJO |
INSTITUTO TECNOLÓGICO DE ARAGÓN |
Laboratory testing and numerical modelling. |
29 |
Load classification a Machine Learning Approach |
SERGIO L. DUBON |
THE UNIVERSITY O EDINBURGH |
Laboratory testing and numerical modelling. |
30 |
A global model for the LiftWEC familly of wave energy converters |
LOUIS PAPILLON |
INNOSEA |
Laboratory testing and numerical modelling. |
31 |
Experimental infrastructure and computational resources of the University of the Basque Country (UPV/EHU) for offshore technologies: Three examples of its application |
JESUS MARIA BLANCO |
UNIVERSIDAD DEL PAIS VASCO/EUSKAL HERRIKO UNIBERTSITATEA |
Laboratory testing and numerical modelling. |
32 |
Combining Parallel Research and Technology Development Projects: Delivering Performance Improvement and Cost Reduction in Marine Renewable Energy Technologies |
BRENDAN CAHILL |
OCEAN RENEWABLE POWER COMPANY |
Laboratory testing and numerical modelling. |
33 |
Real-time hybrid physical-numerical simulation for hydrodynamic problems |
JONAH GADASI |
MOVING |
Laboratory testing and numerical modelling. |
34 |
Experimental study on the performance of winglets on the blades of horizontal axis tidal turbines |
LUKE MYERS |
UNIVERSITY OF SOUTHAMPTON |
Laboratory testing and numerical modelling. |
35 |
Hydro-Elastic Interaction of Flexible Membranes |
KRISHNENDU PUZHUKKIL |
UNIVERSITY OF PLYMOUTH |
Laboratory testing and numerical modelling. |
36 |
Tidal Tools – a digital modelling environment for hydrokinetic turbines |
FRANCESCO SALVATORE |
CNR-INM, INSTITUTE OF MARINE ENGINEERING, NATIONAL RESEARCH COUNCIL |
Laboratory testing and numerical modelling. |
37 |
Innovative Multi-Turbine Control System for HydroWing Tidal Energy Technology |
PIMONPAN PHURAPPA |
UNIVERSITY OF EXETER/INYANGA MARITIME LTD |
More efficient and reliable power take-off and control systems. |
38 |
Autonomous maintenance management and condition monitoring of a tidal energy converter (TEC) via virtual twin |
JAVIER GRANDE |
MAGALLANES RENOVABLES |
More efficient and reliable power take-off and control systems. |
39 |
Advanced control strategies for WEC |
ELIE AL SHAMI |
CARNEGIE WAVE ENERGY IRELAND |
More efficient and reliable power take-off and control systems. |
40 |
An air turbine for closed-cycle power take off in OWC type wave energy conversion devices. |
CRAIG MESKELL |
TRINITY COLLEGE DUBLIN |
More efficient and reliable power take-off and control systems. |
41 |
Improved performance of Wells turbine power take-off for an oscillating water column wave energy converter |
BUDI GUNAWAN |
SANDIA NATIONAL LABORATORIES |
More efficient and reliable power take-off and control systems. |
42 |
Design of a wave measurement system for experimental study in the Nordic sea: A systematic approach |
CHISOM EKWEOBA |
UPPSALA UNIVERSITY, SWEDEN |
Resource, environmental impact and site assessment. |
43 |
An open access platform for assessing wave energy resource and productivity potential of wave energy converters |
RICCARDO NOVO |
MARINE OFFSHORE RENEWABLE ENERGY LAB, POLITECNICO DI TORINO |
Resource, environmental impact and site assessment. |
44 |
Data Collection and site survey for tidal energy developments: Best practice and lessons learnt |
PHILIPP R. THIES |
UNIVERSITY OF EXETER |
Resource, environmental impact and site assessment. |
45 |
Misalignment of principle current flow and turbine yaw heading on the energy yield production |
LUKE EVANS |
UNIVERSITY OF EDINBURGH |
Resource, environmental impact and site assessment. |
46 |
How applicable are turbulence assumptions used in the tidal energy industry |
ALYONA NABEREZHNYKH |
EMEC/EDINBURGH UNIVERSITY |
Resource, environmental impact and site assessment. |
47 |
Advances of Site Characterization and Resource Assessment for Wave and Tidal Energy in the south Pacific coast of Chile |
CRISTIAN ESCAURIAZA |
PONTIFICIA UNIVERSIDAD CATOLICA DE CHILE / MERIC |
Resource, environmental impact and site assessment. |
48 |
From Science to Consenting: Applying Environmental Effects Information to Support Regulatory Decision-Making |
MIKAELA C. FREEMAN |
PACIFIC NORTHWEST NATIONAL LABORATORY |
Resource, environmental impact and site assessment. |
49 |
Biological consequences of marine energy development on marine animals |
LENAIG G. HEMERY |
PACIFIC NORTHWEST NATIONAL LABORATORY |
Resource, environmental impact and site assessment. |
50 |
Acoustic characterization of an oscillating wave energy converter in the North Atlantic |
EDUARDO MADRID |
CENTRO TECNOLÓGICO NAVAL Y DEL MAR |
Resource, environmental impact and site assessment. |
51 |
The contribution of wave energy in the southern Europe (WESE) project to the future development of ocean energy |
JUAN BALD |
FUNDACIÓN AZTI – AZTI FUNDAZIOA |
Resource, environmental impact and site assessment. |
52 |
MARINE DYNAMICS MODELLING TO STUDY THE IMPACT OF WAVE ENERGY FARMS IN NEARSHORE MORPHODYNAMICS |
IÑAKI DE SANTIAGO |
FUNDACIÓN AZTI – AZTI FUNDAZIOA |
Resource, environmental impact and site assessment. |
53 |
A Web-Based Techno-Economic GIS Tool for Ocean Energy |
ROSS OCONNELL |
UNIVERSITY COLLEGE CORK / MAREI |
Resource, environmental impact and site assessment. |
54 |
Study on the offshore renewable energy potential in the Atlantic Ocean |
DUBRANNA, JEAN |
FRANCE ENERGIES MARINES |
Resource, environmental impact and site assessment. |
55 |
Update on Ocean Energy Systems-Environmental |
ANDREA COPPING |
PACIFIC NORTHWEST NATIONAL LABORATORY |
Resource, environmental impact and site assessment. |
56 |
A novel Risk Index for Uncertainty Reduction in the Design of Ocean Renewable Energy Systems |
MARKEL PENALBA |
MONDRAGON UNIVERSITY |
Resource, environmental impact and site assessment. |
57 |
The Tidal Range Resource along the Argentinian Patagonia Coast |
MARTÍ BARCLAY, VICKY |
BANGOR UNIVERSITY |
Resource, environmental impact and site assessment. |
58 |
Tidal energy resource in the English Channel |
JON HARDWICK |
UNIVERSITY OF EXETER |
Resource, environmental impact and site assessment. |
59 |
Water Energy Point Absorber for Sardinia West Coast |
MARCELO RAVA |
DIPARTIMENTO DI INGEGNERIA MECCANICA E AEROSPAZIALE, POLITECNICO DI TORINO |
|
60 |
On the Road to Innovations |
JESSE ROBERTS |
SANDIA NATIONAL LABORATORIES |
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