University of the Basque Country University of the Basque Country

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Advanced Manufacturing Research Fellowship Programme Adagio

Advanced ManufacturIng Research Fellowship Programme in the Basque - New Aquitaine Region (ADAGIO)

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Host Research Group

ES7_ITSAS-REM_Jesús María Blanco Ilzarbe

Jesús María Blanco Ilzarbe

+34946014250

jesusmaria.blanco@ehu.eus

https://www.ehu.eus/en/web/itsas-rem/home

Group description

Introduction:

The recognized research group of the Basque Government ITSAS-REM (IT1514-22), 2022-2025, is dedicated to research activities in the field of energy (renewable energies in the marine environment), risk management and adaptation to climate change. The group is the result of the evolution of the also recognized research groups of the Basque Government SCM, Comprehensive sustainability in building systems and their materials, (IT781-13), 2013-2018, followed by E-CLEDER (IT1314-19), 2019-2021.

All the activities of the research group evolve towards achieving integral sustainability  , taking into account adaptation to climate change through a resilient design and with the implementation of renewable energies of offshore origin, taking advantage of the growth on its implementation.

From its remarkable multidisciplinary nature, this engineering group addresses the profiles necessary to meet the proposed energy-oriented profile through fluid-dynamics. The context in which the different activities are presented are aligned with the priorities of RIS3 strategy in the field of Energy optimization.

Publications:

The members of the group have shown an extensive portfolio of scientific publications of their results accounting 55 JCR papers, 6 book chapters and 40 international conferences apart from other publications based mainly in educational issues.

International collaborations:

CEMIE-OCEANO

The Mexican Center for Innovation in Ocean Energy CEMIE-OCEANO is the ocean energy research center with the greatest capacities for the development of technologies with high social and industrial impact, as well as the largest number of successful lines of research in Latin America.

Training:

The principal investigator is Coordinator of the Erasmus Mundus REM  master (Renewable Energy in the Marine environment), 2018-2022 as well as the recently awarded Erasmus Mundus REM PLUS, 2022-2026, as a continuation of the previous master degree.

Apart from that, the group is allocated in two main doctoral programmes and has supervised 6 PhD’s theses and more tan 50 master theses in the field.

Facilities:

Our group runs an experimental wave flume (EWF) of 12.5m long, 0.60m wide and 0.7m high. The software allows the paddle to follow a sinusoidal movement or any other higher order movement that turns into a progressive acceleration-deceleration pattern for the generation of waves and testing small prototypes of floating wind turbines platforms. Besides The Group has 2 workstations (Station 1: DELL precision 7920, 24 Xeon cores, RAM 32 GB. Station 2: DELL precision T7810, 16 Xeon cores, RAM 32 GB). In addition, as members of the UPV / EHU, there is the possibility of accessing the Arina Server, aiming to built and validate the numerical models, numerical wave flume (NWF) through computational fluid dynamics CFD.

Keywords

  • Renewables
  • Wave flume
  • Experimental models
  • Numerical models
  • Energy optimization
  • Climate change
  • Sustainability
  • OWC

Team Description

  • Jesús María Blanco Ilzarbe (Principal Investigator)

    ORCID: 0000-0003-0191-2063

  • Gustavo Adolfo Esteban Alcalá (Research staff)

    ORCID: 0000-0001-9759-8050

  • Urko Izquierdo Ereño (Research staff)

    ORCID: 0000-0003-2020-4310

  • Iñigo Bidaguren Diego (Research staff)

    ORCID: 0000-0001-5180-6686

  • Iñigo Albaina Lopez de Armentia (Research staff)

    ORCID: 0000-0003-1904-6431

  • Alberto Peña Bandrés (Research staff)

    ORCID: 0000 -0002-1040-2711

Projects

  • PERFORMANCE OPTIMIZATION OF SINGLE-MOTOR GENERATION INSTALLATIONS BASED ON FIXED OWC TECHNOLOGY: HYDRODYNAMIC, CONSTRUCTIVE AND ECONOMIC CHARACTERIZATION (GENERA-OWC)

    Pl: 29148328Z, BLANCO, JESUS MARIA.

    Funding Agency*: RE

    Ongoing: yes

    Project reference: PIBA_2021_1_0024

  • COLLABORATIVE RESEARCH IN MARINE RENEWABLE ENERGIES (ICERMAR)

    Pl: 29148328Z, BLANCO, JESUS MARIA

    Funding Agency*: RE

    Ongoing: no

    Project reference: KK‐2015/0000097

  • INTELLIGENT MATHS FOR MARINE RENEWABLES

    Pl: 29148328Z, BLANCO, JESUS MARIA

    Funding Agency*: RE

    Ongoing: no

    Project reference: KK‐2019/00085

  • COLLABORATIVE RESEARCH IN MARINE RENEWABLE ENERGIES (ICERMAR II)

    Pl: 29148328Z BLANCO, JESUS MARIA.

    Funding Agency*: RE

    Ongoing: no

    Project reference: KK‐2016/00031

  • CONTACTLESS SUBMARINE POWER TRANSFER STATION DEMONSTRATOR

    Pl: 11912630X MARTINEZ, IÑIGO and 29148328Z, BLANCO, JESUS MARIA.

    Funding Agency*: RE

    Ongoing: no

    Project reference: COLAB19/02

* INT - International EU - European NAT - National RE - Regional

Publications

  • Medina, A.A., Martinez, A., Blanco, J.M., Silva, R., = Interaction of Oblique Waves with an Oscillating Water Column Device., Ocean Engineering, (228) 108931, 2021
    10.1016/j.oceaneng.2021.108931

  • Esteban, G.A.; Aristondo, A.; Izquierdo, U.; Blanco, J.M.; Pérez, G., = Experimental analysis and numerical simulation of wave overtopping on a fixed vertical cylinder under regular waves., Coastal Engineering,173., 2022
    10.1016/j.coastaleng.2022.104097

  • Galera-Calero, L.; Blanco, J.M.; Izquierdo, U.; Esteban, G.A., = Performance Assessment of Three Turbulence Models Validated through an Experimental Wave Flume under Different Scenarios of Wave Generation, Journal of Marine Science and Engineering, Special Issue "Large Eddy Simulation and Turbulence Modeling", 8, 2020
    10.3390/jmse8110881

  • Medina, A.A.; Blanco, J.M.; Silva, R.; Izquierdo, U., = The Influence of the Chamber Configuration on the Hydrodynamic Efficiency of Oscillating Water Column Devices, Journal of Marine Science and Engineering, Special Issue "Numerical Assessments of Tidal Stream and Wave Energy in Coastal Shelf Seas", 2, 2020
    10.3390/jmse8100751

  • Zabala, I.; Henriques, J.C.C.; Blanco, J.M.; Gomez, A.; Gato, L.; Bidaguren, I; Falcao, A.F.O.; Amezaga, A.; Gomes, R.P.F., = Wave-induced real-fluid effects in marine energy converters: Review and application to OWC devices, Renewable & sustainable energy reviews, 111, 2019
    10.1016/j.rser.2019.05.025

Research Lines

ENERGY EFFICIENCY

Experimental study of the integration of offshore renewables

  • The objective of this line is to minimize the effects of climate change from efficiency in the use of energy through the generation through renewable sources of offshore origin, taking advantage of the growth and advances of their implementation through an experimental wave flume (EWF) of 12.5m long, 0.60m wide and 0.7m high.

Numerical study of the integration of offshore renewables

  • The experimental outcomes of the previous research line will be used to validate the numerical models built through CFD. For this, STAR CCM+ software suitable for solving many cases of fluid dynamics. One of the most complete on the market.

Cross-border Collaboration (if any)

Several collaborations were established by the research group and other external partners at the New Aquitaine region as highlighted below:

Co-creation of the Euskampus (UPV/EHU, Tecnalia, DIPC and University of Bordeaux) Knowledge Hub for Marine Renewable Energies.

Collaboration in Euskampus-Bordeaux Eguna (November 2017 Bilbao, November 2018 Donostia, November 2019 Bordeaux, October 2020 online and the upcoming October 2021 Donostia).

Start-up and development of the Transborder Laboratory on Mathematics and its applications, LTC TRANSMATH, between the University of Bordeaux, the CNRS and Bordeaux INP from the french side (prof. David Lannes), and UPV/EHU, BCAM and Tecnalia on the spanish side, leaded by Prof. Luis Vega, and the Joint Research Laboratory on Offshore Renewable Energies, JRL ORE (UPV/EHU, Tecnalia and BCAM), promoted by Euskampus Fundazioa

Three international workshops on Hydrodynamics of Wave Energy Converters(HYWEC) have been jointly organized in Bilbao April 2017 ,Bordeaux June 2019 and once again in Bilbao June 2022.

The IP of this proposal is Coordinator of the RENOVABLES Project (https://renovables-eurorregion.com/en/home/) within the Call "Knowledge Economy 2020" of the (Euskadi-New Aquitaine-Navarre) Euroregion, approved in January 2021, representing a trailblazing contribution involving three public universities (University of the Basque Country, Bordeaux University and Public University of Navarre) that seeks to catalyze intersectoral cooperation aiming to generate innovative methods, products and services using renewable marine resources, being the last edition of the HYWEC (June 22) previously mentioned above, one of the training activities (https://renovables-eurorregion.com/event/hydrodynamics-of-wave-energy-converters-hywecs-es/.