Annual Seminar 2018 Centre for ... - Offshore Renewables · Resource characterisation using near-...
Transcript of Annual Seminar 2018 Centre for ... - Offshore Renewables · Resource characterisation using near-...
Centre for Marine andEnvironmental Research
Maria João Bebianno (Coordinator)
Marine Offshore Renewable Energy Team synergies with UK institutions
Eduardo González Gorbeña
4 th December 2018 Museu do Oriente, Lisbon, Portugal
AnnualSeminar
2018
CIMA - UALG
The Centre for Marine and Environmental Research (CIMA) is a leading
multidisciplinary Research Unit at the University of Algarve through its research,
training and environmental monitoring activities. The transfer of scientific knowledge
to Society is a major team commitment.
CIMA mission is to promote scientific knowledge and innovation in marine and
environmental areas to ensure sustainable, integrated and smart development.
CIMA’s organization is around two main research domains: Ocean and Coastal Dynamics Sea observation
Transitional systems
Coastal dynamics
Environmental systems and resources Climate change
Ecotoxicology of deep sea areas
Environmental quality and remediation
Energy and resources
CIMA Organization
MORE-CIMA Team Members
Cláudia Sequeira, PhD (Professor at UALG)Mechanical Engineer specialised in vibrations, maintenance and condition monitoring systems applied on wind turbines.
Theo Moura, PhD (Post-doctoral fellow under project MONITOR) Oceanographer with expertise in long waves and field data acquisition.
Eduardo Gorbeña, PhD (Marie S. Curie fellow under project OpTiCA)Coastal engineer with expertise in numerical modelling and mathematical optimisation.
André Pacheco, PhD (FCT-IF researcher, CIMA vice-director and MORE team coordinator)Oceanographer specialised in coastal processes and on field data collection.
MORE Team together with UK partners is involved in the followingresearch projects:
SCORE – Sustainability of using Ria Formosa Currents On Renewable Energy production.Funded by: FCT–PTDC/AAG-TEC/1710/2014
OpTiCA – Optimisation of Tidal energy Converter ArraysFunded by: H2020-MSCA-IF-EF-RI-2016 GA# 748747
MONITOR - Multi-model investigation of tidal energy converter reliabilityFunded by: Interreg Atlantic Area – ERDF-EAPA333/2016
FLOWSPA – Floating Offshore Wind Support Platform AssemblyFunded by: H2020-SMEINST-1-2016-2017 GA# 744518.
PAMS – Performance Analysis of a Multifloat Spar for supporting wind turbinesFunded by: MaRINET 2
MORE-CIMA Research Projects
SCORE – Sustainability of using Ria Formosa Currents On Renewable Energy productionFunded by: FCT–PTDC/AAG-TEC/1710/2014
Objectives:
Collect data from the operation of a small floating tidal turbine (1 kW) to validate models that will allow assessing the environmental impact of energy extraction;
Develop cost benefit analysis of tidal energy balancing supply and demand.
UK partners:
MORE-CIMA Research Projects
SCORE project
5 km
Port
ugal
MORE-CIMA Research Projects
OpTiCA – Optimisation of Tidal energy Converter ArraysFunded by: H2020-MSCA-IF-EF-RI-2016 GA# 748747
Objective:
Formulate and solve mathematical optimisation models based on numerical simulations to minimise LCOE while decreasing detrimental environmental impacts.
UK institutions hosting secondments:
MORE-CIMA Research Projects
Provided training using OrcaFlex software
Provided training using BEM-CFD model
EvopodTM 1 kW tidal turbine BEM-CFD model
OpTiCA – Optimisation of Tidal energy Converter ArraysFunded by: H2020-MSCA-IF-EF-RI-2016 GA# 748747
MORE-CIMA Research Projects
Pinon, 2016
Pinon, G. Tidal energy – Hydrolien. École thématique sur les technologie EMRs, 19 & 20 octobre 2016, LOMC, CNRS, Univ. Normandie (Le Havre).
IFREMER horizontal axis turbine BEM-CFD model
MONITOR - Multi-model investigation of tidal energy converter reliabilityFunded by: Interreg Atlantic Area – ERDF-EAPA333/2016
Objective:
Investigate the reliability of tidal energy converters and develop tools to increase it.
Project consortium:
MORE-CIMA Research Projects
ProjectLeader
UKInstitutions
MONITOR - Multi-model investigation of tidal energy converter reliabilityFunded by: Interreg Atlantic Area – ERDF-EAPA333/2016
CIMA-UALG role:
To plan and coordinate fieldwork activities by giving logistical support to the tidal developers;
To collect and process the resulting data that will be inputs to numerical models; and
To publish the findings in a suitable format.
MORE-CIMA Research Projects
MONITOR - Multi-model investigation of tidal energy converter reliabilityFunded by: Interreg Atlantic Area – ERDF-EAPA333/2016
MORE-CIMA Research Projects
Sabella’s D10 ready for deployment at the Fromveur Passage, France
M.R.’s ATIR tidal turbine to be tested atEMEC’s Fall of Warness test site, UK.
FLOWSPA - Floating Offshore Wind Support Platform AssemblyFunded by: H2020-SMEINST-1-2016-2017 GA# 744518.
Objective:
Demonstrate the feasibility of floating offshore wind foundation structure (StarfloatTM).
Project leader:
CIMA-UALG project contribution:
Proposal writing
Numerical modelling
MORE-CIMA Research Projects
Prototype construction
Set-up of preliminary stability tests
FLOWSPA - Floating Offshore Wind Support Platform AssemblyFunded by: H2020-SMEINST-1-2016-2017 GA# 744518.
MORE-CIMA Research Projects
StarFloatTM 1/36 scale prototype testing at the Royal Quays Marina, Newcastle.
PAMS – Performance Analysis of a Multifloat Spar for supporting wind turbinesFunded by: MaRINET 2
Project leader:
Objective:
Gather data from scale model tests of StarFloatTM in a wave making basin under different operating conditions
CIMA-UALG project contribution:
Data processing
MORE-CIMA Research Projects
PAMS – Performance Analysis of a Multifloat Spar for supporting wind turbines
Funded by: MaRINET 2
MORE-CIMA Research Projects
StarFloatTM 1/36 scale prototype testing at Cantabria Coastal and Ocean Basin
MORE-CIMA Services
How can MORE Team help you? Giving support during prototype testing: Data collection and analysis
Mechanical parameters (e.g. vibrations)
Oceanographic data (e.g. flow velocities, turbulence characterisation)
Numerical modelling Resource characterisation using near-shore circulation models (Delft3D, Telemac-
Mascaret)
CFD modelling (Open-FOAM, Ansys Fluent, OrcaFlex)
Testing area at the Faro Olhão-Inlet, Ria Formosa To test small scale prototypes (TRL 5) of tidal energy devices and floating wind
turbines
MORE-CIMA Services
How can MORE Team help you? Testing area at the Faro Olhão-Inlet, Ria Formosa
Testing area
Waterway
Tidal currents:
• Umax = ~2.5 m/s
• Uavg = ~1.0 m/s
Avg sea state:
• Hs = 0.3 m, Tz = 3 s
Survival sea state:
• Hs = 1.4 m, Tz = 4 s
MORE Team PublicationsGonzález-Gorbeña, E., Pacheco, A., Plomaritis, T.A, Ferreira, Ó., Sequeira, C. (2018). Estimating theoptimum size of a tidal array at a multi-inlet system considering environmental and performance constraints. Applied Energy 232: 292-311 (doi: 10.1016/j.apenergy.2018.09.204).
Pacheco, A., Gorbeña, E.G., Plomaritis, T.A, Garel, E., Gonçalves, J.M.S., Bentes, l., Monteiro, P., Afonso, C.M.L., Oliveira, F., Soares, C., Zabel, F., Sequeira, C. (2018). Deployment characterization of a floatabletidal energy converter on a tidal channel, Ria Formosa, Portugal. Energy 158: 89-104 (doi: 10.1016/j.energy.2018.06.034).
González-Gorbeña, E., Qassim, R.Y., Rosman, P.C.C. (2018). Multi-dimensional optimisation of Tidal Energy Converters array layouts considering geometric, economic and environmental constraints 116: 647-658 (doi: 10.1016/j.renene.2016.02.045)
Pacheco, A., Gorbeña, E.G., Sequeira, C., Jerez, S. (2017). An evaluation of offshore wind power productionby floatable systems: A case study from SW Portugal. Energy 131: 239-250 (doi: 10.1016/j.energy.2017.04.149).
González-Gorbeña, E., Qassim, R. Y., Rosman, P. C. (2016). Optimisation of hydrokinetic turbine array layouts via surrogate modelling. Renewable Energy, 93:45-57 (doi: 10.1016/j.renene.2016.02.045)
Pacheco, A., Ferreira, Ó. (2016). Hydrodynamic changes imposed by tidal energy converters on extractingenergy on a real case scenario. Applied Energy 180:369-385 (doi: 10.1016/j.apenergy.2016.07.132)
González-Gorbeña, E., Rosman, P.C.C., Qassim, R.Y. (2015). Assessment of the tidal current energyresource in São Marcos Bay, Brazil. Journal of Ocean Engineering and Marine Energy, 1(4):421–433 (doi: 10.1007/s40722-015-0031-5)
Pacheco A, Ferreira Ó, Carballo R, Iglesias G. (2014). Evaluation of the tidal stream energy production at aninlet channel coupling field data and modelling. Energy 71:104-117 (doi: 10.1016/j.energy.2014.04.075).
Thank you!
Ankowledgments: CIMA (ref - UID/MAR/00350/2019 CIMA); Poject OpTiCA funded by H2020-MSCA-IF-EF-RI-2016 / GA# 748747