1. Quartier N, Vervaet T, Verao-Fernández G, Domínguez JM, Crespo AJC, Stratigaki V, Troch P. 2024. High-fidelity numerical modelling of a two-WEC array with accurate implementation of the PTO system and control strategy using DualSPHysics. Energy, 296, 130888.
  2. El Rahi J, Martínez-Estévez I, Almeida Reis R, Tagliafierro B, Domínguez JM, Crespo AJC, Stratigaki V, Suzuki T, Troch P. 2024. Exploring Wave–Vegetation Interaction at Stem Scale: Analysis of the Coupled Flow–Structure Interactions Using the SPH-Based DualSPHysics Code and the FEA Module of Chrono. Journal of Marine Science and Engineering, 12(7), 1120.
  3. González-Ávalos R, Martínez-Estévez I, Domínguez JM, Gironella X, Crespo AJC, Altomare C. 2024. Numerical simulation of a flexible net in currents with the smoothed particle hydrodynamics method. Ocean Engineering, 300, 117102.
  4. Tagliafierro B, Karimirad M, Altomare C, Göteman M, Martínez-Estévez I, Capasso S, Domínguez JM, Viccione G, Gómez-Gesteira M, Crespo AJC. 2023. Numerical validations and investigation of a semi-submersible floating offshore wind turbine platform interacting with ocean waves using an SPH framework. Applied Ocean Research, 141, 103757.
  5. Sun JZ, Zou L, Govender N, Martínez-Estévez I, Crespo AJC, Sun Z, Domínguez JM. 2023. A resolved SPH-DEM coupling method for analysing the interaction of polyhedral granular materials with fluid. Ocean Engineering, 287 (2), 115938.
  6. El Rahi J, Martínez-Estévez I, Tagliafierro B, Domínguez JM, Crespo AJC, Stratigaki V, Suzuki T, Troch P. 2023. Numerical investigation of wave-induced flexible vegetation dynamics in 3D using a coupling between DualSPHysics and the FEA module of Project Chrono. Ocean Engineering, 285, 115227.
  7. Mitsui J, Altomare C, Crespo AJC, Domínguez JM, Martínez-Estévez I, Suzuki T, Kubota S, Gómez-Gesteira M. 2023. DualSPHysics modelling to analyse the response of Tetrapods against solitary wave. Coastal Engineering, 183, 104315.
  8. Martínez-Estévez I, Tagliafierro B, El Rahi J, Domínguez JM, Crespo AJC, Troch P, Gómez-Gesteira M. 2023. Coupling an SPH-based solver with an FEA structural solver to simulate free surface flows interacting with flexible structures. Computer Methods in Applied Mechanics and Engineering, 410, 115989
  9. Ruffini G, Domínguez JM, Briganti R, Altomare C. Stolle J, Crespo AJC, Ghiassi B, Capasso S, De Girolano P. 2023. MESH-IN: A MESHed INlet offline coupling method for 3-D extreme hydrodynamic events in DualSPHysics. Ocean Engineering, 268, 113400.
  10. Martínez-Estévez I, Domínguez JM, Tagliafierro B, Canelas RB, García-Feal O, Crespo AJC, Gómez-Gesteira M. (2023). Coupling of an SPH-based solver with a multiphysics library. Computer Physics Communications, 283, 108581.
  11. Brito M, Bernardo F, Neves MG, Neves DRCB, Crespo AJC, Domínguez JM. (2022). Numerical Model of Constrained Wave Energy Hyperbaric Converter under Full-Scale Sea Wave Conditions. Journal of Marine Science and Engineering, 10(10), 1489.
  12. Tagliafierro B, Karimirad M, Martínez-Estévez I, Domínguez JM, Viccione G, Crespo AJC. (2022). Numerical Assessment of a Tension-Leg Platform Wind Turbine in Intermediate Water Using the Smoothed Particle Hydrodynamics Method. Energies, 15(11), 3993.
  13. Tagliafierro B, Martínez-Estévez I, Domínguez JM, Crespo AJC, Göteman M, Engström J, Gómez-Gesteira M. (2022). A numerical study of a taut-moored point-absorber wave energy converter with a linear power take-off system under extreme wave conditions. Applied Energy, 311, 118629.
  14. Capasso S, Tagliafierro B, Martínez-Estévez I, Domínguez JM, Crespo AJC, Viccione G. (2022). A DEM approach for simulating flexible beam elements with the Project Chrono core module in DualSPHysics. Computational Particle Mechanics, 9(5), 969-985.
  15. Domínguez JM, Fourtakas G, Altomare C, Canelas RB, Tafuni A, García-Feal O, Martínez-Estévez I, Mokos A, Vacondio R, Crespo AJC, Rogers BD, Stansby PK, Gómez-Gesteira M. (2022). DualSPHysics: from fluid dynamics to multiphysics problems. Computational Particle Mechanics, 9(5), 867-895.
  16. Lowe RJ, Altomare C, Buckley M, da Silva R, Hansen JE, Rijnsdorp D, Domínguez JM, Crespo AJC. (2022). Smoothed Particle Hydrodynamics simulations of reef surf zone processes driven by plunging irregular waves. Ocean Modelling, 171, 101945.
  17. English A, Domínguez JM, Vacondio R, Crespo AJC, Stansby PK, Lind SJ, Chiapponi L, Gómez-Gesteira M. (2022). Modified dynamic boundary conditions (mDBC) for general purpose smoothed particle hydrodynamics (SPH): application to tank sloshing, dam break and fish pass problems. Computational Particle Mechanics, 9(5), 911-925.
  18. García-Feal O, Crespo AJC, Gómez-Gesteira M. (2022). VisualSPHysics: advanced fluid visualization for SPH models. Computational Particle Mechanics, 9(5), 897-910.
  19. Altomare C, Gironella X, Crespo AJC. (2021). Simulation of random wave overtopping by a WCSPH model. Applied Ocean Research, 116, 102888.
  20. Quartier N, Crespo AJC, Domínguez JM, Stratigaki V, Troch P. (2021). Efficient response of an onshore Oscillating Water Column Wave Energy Converter using a one-phase SPH model coupled with a multiphysics library. Applied Ocean Research, 115, 102856.
  21. Tagliafierro B, Mancini S, Ropero-Giralda P, Domínguez JM, Crespo AJC, Viccione G. (2021). Performance Assessment of a Planing Hull Using the Smoothed Particle Hydrodynamics Method. Journal of Marine Science and Engineering, 9, 244.
  22. Ropero-Giralda P, Crespo AJC, Coe RG, Tagliafierro B, Domínguez JM, Bacelli G, Gómez-Gesteira M. (2021). Modelling a heaving point-absorber with a closed-loop control system using the DualSPHysics code. Energies, 14(3), 760.
  23. Altomare C, Tafuni A, Domínguez JM, Crespo AJC, Gironella X, Sospedra J. (2020). SPH Simulations of Real Sea Waves Impacting a Large-Scale Structure. Journal of Marine Science and Engineering, 8, 826.
  24. Ropero-Giralda P, Crespo AJC, Tagliafierro B, Altomare C, Domínguez JM, Gómez-Gesteira M, Viccione G. (2020). Efficiency and survivability analysis of a point-absorber wave energy converter using DualSPHysics. Renewable Energy, 162, 1763-1776.
  25. Tagliafierro, B. Crespo, A. J. C. González-Cao, J. Altomare, C. Sande, J. Peña, E. Moncho Gómez-Gesteira (2020). Numerical modelling of a multi-chambered low-reflective caisson. Applied Ocean Research, 103, 1-17.
  26. D. Kisacik, V. Stratigaki, M. Wu, L. Cappietti, I. Simonetti, P. Troch, A.J.C. Crespo, C. Altomare, J.M. Dominguez, M. Hall, M. Gómez-Gesteira, R. B. Canelas, P.K. Stansby (2020). Efficiency and Survivability of a Floating Oscillating Water Column Wave Energy Converter Moored to the Seabed: An Overview of the EsflOWC MaRINET2 Database. Water, 12(4), 992.
  27. M. Brito, R. B. Canelas, O. García-Feal, J.M. Dominguez, A.J.C. Crespo, R.M.L. Ferreira, M. G. Neves, L. Teixeira (2020). A numerical tool for modelling oscillating wave surge converter with nonlinear mechanical constraints. Renewable Energy, 146, 2024-2043.
  28. J.M. Dominguez, A.J.C. Crespo, M. Hall, C. Altomare, M. Wu, V. Stratigaki, P. Troch, L. Cappietti, M. Gómez-Gesteira (2019). SPH simulation of floating structures with moorings. Coastal Engineering, 153, 1-15.
  29. M. Wu, V. Stratigaki, P. Troch, C. Altomare, T. Verbrugghe, A.J.C. Crespo, L. Cappietti, M. Hall, M. Gómez-Gesteira (2019). Experimental Study of a Moored Floating Oscillating Water Column Wave-Energy Converter and of a Moored Cubic Box. Energies, 12(10), 1-20.
  30. J. González-Cao, C. Altomare, A.J.C. Crespo, J.M. Dominguez, M. Gómez-Gesteira, D. Kisacik (2019). On the accuracy of DualSPHysics to assess violent collisions with coastal structures. Computers & Fluids, 179, 604-612.
  31. O.S. Areu-Rangel, J. González-Cao, A.J.C. Crespo, R. Bonasia (2019). Numerical modelling of hydrological safety assignment in dams with IBER, Sustainable Water Resources Management. 5(1), 347–358.
  32. A. Tafuni, J.M. Dominguez, R. Vacondio, A.J.C. Crespo (2018). A versatile algorithm for the treatment of open boundary conditions in Smoothed particle hydrodynamics GPU models. Computer Methods in Applied Mechanics and Engineering, 342, 604-624.
  33. T. Verbrugghe, J.M. Dominguez, A.J.C. Crespo, C. Altomare, V. Stratigaki, P. Troch, A. Kortenhaus (2018). Coupling methodology for smoothed particle hydrodynamics modelling of non-linear wave-structure interactions. Coastal Engineering, 138, 184–198.
  34. R.B. Canelas, M. Brito, O. García-Feal, J.M. Dominguez, A.J.C. Crespo (2018). Extending DualSPHysics with a Differential Variational Inequality: modeling fluid-mechanism interaction. Applied Ocean Research, 76, 88–97.
  35. F. Zhang, A.J.C. Crespo, C. Altomare, J.M. Dominguez, A. Marzeddu, Shao-ping Shang, M. Gómez-Gesteira (2018). DualSPHysics: A numerical tool to simulate real breakwaters. Journal of Hydrodynamics, 30(1), 95–105.
  36. J. González-Cao, O. García-Feal, J.M. Dominguez, A.J.C. Crespo, M. Gómez-Gesteira (2018). Analysis of the hydrological safety of dams combining two numerical tools: Iber and DualSPHysics. Journal of Hydrodynamics, 30(1), 87–94.
  37. A.J.C. Crespo, C. Altomare, J.M. Dominguez, J. González-Cao, M. Gómez-Gesteira (2017). Towards simulating floating offshore oscillating water column converters with Smoothed Particle Hydrodynamics. Coastal Engineering, 126, 11-26.
  38. R.B. Canelas, J.M. Dominguez, A.J.C. Crespo, M. Gómez-Gesteira, R.M.L. Ferreira (2017). Resolved Simulation of a Granular-Fluid Flow with a Coupled SPH-DCDEM Model. Journal of Hydraulic Engineering, 143(9), 06017012.
  39. C. Altomare, J.M. Dominguez, A.J.C. Crespo, J. González-Cao, T. Suzuki, M. Gómez-Gesteira, P. Troch (2017). Long-crested wave generation and absorption for SPH-based DualSPHysics model, Coastal Engineering, 127, 37-54.
  40. A. Mujal-Colilles, X. Gironella, A.J.C. Crespo, A. Sánchez-Arcilla (2017). Study of the bed velocity induced by twin propellers. Journal of Waterway, Port, Coastal and Ocean Engineering, Journal of Waterway, Port., Coastal and Ocean Engineering, 143, Issue 5, 1, 04017013.
  41. R. Canelas, A.J.C. Crespo, J.M. Dominguez, R.M.L. Ferreira, M. Gómez-Gesteira (2016). SPH-DCDEM model for arbitrary geometries in free surface solid-fluid flows. Computer Physics Communications, 202, 131-140.
  42. A. Barreiro, A.J.C. Crespo, J.M. Dominguez, O. García-Feal, I. Zabala, M. Gómez-Gesteira (2016). Quasi-static mooring solver implemented in SPH. Journal of Ocean Engineering and Marine Energy, 2(3), 381-396.
  43. C. Altomare, J.M. Dominguez, A.J.C. Crespo, T. Suzuki, I. Caceres, M. Gómez-Gesteira (2016). Hybridization of the Wave Propagation Model SWASH and the Meshfree Particle Method SPH for Real Coastal Applications. Coastal Engineering, 57(4), 1-34.
  44. R. B. Canelas, J.M. Dominguez, A.J.C. Crespo, M. Gómez-Gesteira, R.M.L. Ferreira (2015). A Smooth Particle Hydrodynamics discretization for the modelling of free surface flows and rigid body dynamics. International Journal for Numerical Methods in Fluids, 78, 581–593.
  45. A.J.C. Crespo, J.M. Dominguez, B.D. Rogers, M. Gómez-Gesteira, S. Longshaw, R. Canelas, R. Vacondio, A. Barreiro, O. García-Feal (2015). DualSPHysics: Open-source parallel CFD solver based on Smoothed Particle Hydrodynamics (SPH). Computer Physics Communications, 187, 204-216.
  46. C. Altomare, A.J.C. Crespo, J.M. Dominguez, M. Gómez-Gesteira, T. Suzuki, T. Verwaest (2015). Applicability of Smoothed Particle Hydrodynamics for estimation of sea wave impact on coastal structures. Coastal Engineering, 96, 1-12.
  47. A. Barreiro, J.M. Dominguez, A.J.C. Crespo, H. González-Jorge, D. Roca, M. Gómez-Gesteira (2014). Integration of UAV Photogrammetry and SPH Modelling of Fluids to Study Runoff on Real Terrains. PLoS ONE, 9(11), e111031.
  48. C. Altomare, A.J.C. Crespo, B.D. Rogers, J.M. Dominguez, X. Gironella, M. Gómez-Gesteira (2014). Numerical modelling of armour block sea breakwater with smoothed particle hydrodynamics. Computers & Structures, 130, 34-35.
  49. A. Barreiro, A.J.C. Crespo, J.M. Dominguez, M. Gómez-Gesteira (2013). Smoothed Particle Hydrodynamics for coastal engineering problems. Computers & Structures, 120, 96-106.
  50. J.M. Dominguez, A.J.C. Crespo, D. Valdez-Balderas, B.D. Rogers, M. Gómez-Gesteira (2013). New multi-GPU implementation for smoothed particle hydrodynamics on heterogeneous clusters. Computer Physics Communications, 184(8), 1848-1860.
  51. J.M. Dominguez, A.J.C. Crespo, M. Gómez-Gesteira (2013) Optimization strategies for CPU and GPU implementations of a smoothed particle hydrodynamics method, Computer Physics Communications, 184(3), 617-627.
  52. D. Valdez-Balderas, J.M. Dominguez, B.D. Rogers, A.J.C. Crespo (2013). Towards accelerating smoothed particle hydrodynamics simulations for free-surface flows on multi-GPU clusters. Journal of Parallel and Distributed Computing, 73(11), 1483-1493.
  53. M. Gómez-Gesteira, A.J.C. Crespo, B.D. Rogers, R.A. Dalrymple, J.M. Dominguez, A. Barreiro (2012). SPHysics – development of a free-surface fluid solver – Part 2: Efficiency and test cases. Computers & Geosciences, 48, 300-307.
  54. M. Gómez-Gesteira, B.D. Rogers, A.J.C. Crespo, R.A. Dalrymple, M.S. Narayanaswamy, J.M. Dominguez (2012) SPHysics – development of a free-surface fluid solver – Part 1: Theory and formulations. Computers & Geosciences, 48, 289-299.
  55. A.J.C. Crespo, J.M. Dominguez, A. Barreiro, M. Gómez-Gesteira, B.D. Rogers (2011). GPUs, a new tool of acceleration in CFD: Efficiency and reliability on Smoothed Particle Hydrodynamics methods. PLoS ONE, 6(6), e20685.
  56. M. Gómez-Gesteira, L. Gimeno, M. deCastro, M.N. Lorenzo, I. Álvarez, R. Nieto, A.J.C. Crespo, A.M. Ramos, J.J. Taboada, F.E. Santo, D. Barriopedro (2011). The state of climate in NW Iberia. Climate Research, 48, 109–144.
  57. J.M. Dominguez, A.J.C. Crespo, M. Gómez-Gesteira, J.C. Marongiu (2011). Neighbour List in Smoothed Particle Hydrodynamics. International Journal for Numerical Methods in Fluids, 67(12), 2026-2042.
  58. I. Álvarez, M. Gómez-Gesteira, M. deCastro, M.N. Lorenzo, A.J.C. Crespo, J.M. Dias (2010). Comparative analysis of upwelling influence between the western and northern coast of the Iberian Peninsula. Continental Shelf Research, 31(5), 388-399.
  59. M. deCastro, M. Gómez-Gesteira, I. Álvarez, A.J.C. Crespo (2010). Atmospheric modes influence on Iberian Poleward Current variability. Continental Shelf Research, 31(5), 425-432.
  60. M. Gómez-Gesteira, B.D. Rogers, R.A. Dalrymple, A.J.C. Crespo (2010). State-of-the-art of classical SPH for free-surface flows. Journal of Hydraulic Research, 48, 6-27.
  61. M.S. Narayanaswamy, A.J.C. Crespo, M. Gómez-Gesteira, R.A. Dalrymple (2010). SPHysics-funwave hybrid model for coastal wave propagation. Journal of Hydraulic Research, 48, 85-93.
  62. M. Gómez-Gesteira, B.D. Rogers, D. Violeau, J.M. Grassa, A.J.C. Crespo (2010). Foreword: SPH for free-surface flows. Journal of Hydraulic Research, 48, 3-5.
  63. M. Gómez-Gesteira, M. deCastro, I. Álvarez, M.N. Lorenzo, J.L. Gómez-Gesteira, A.J.C. Crespo (2008). Spatio-temporal upwelling trends along the Canary Upwelling System (1967-2006). Annals of the New York Academy of Sciences, 1146, 320-337.
  64. M. deCastro, M. Gómez-Gesteira, I. Álvarez, M.N. Lorenzo, J.M. Cabanas, R. Prego, A.J.C. Crespo (2008). Characterization of fall-winter upwelling recurrence along the Galician western coast (NW Spain) from 2000 to 2005: Dependence on atmospheric forcing. Journal of Marine Systems, 72, 145-158.
  65. A.J.C. Crespo, M. Gómez-Gesteira, P. Carracedo, R.A. Dalrymple (2008) Hybridation of generation propagation models and SPH model to study severe sea states in Galician Coast, Journal of Marine Systems, 72, 135-144.
  66. M. deCastro, M. Gómez-Gesteira, M.N. Lorenzo, I. Álvarez, A.J.C. Crespo (2008). Influence of atmospheric modes on coastal upwelling along the western coast of the Iberian Peninsula, 1985 to 2005. Climate Research, 36, 169-179.
  67. A.J.C. Crespo, M. Gómez-Gesteira, R.A. Dalrymple (2008). Modeling Dam Break Behavior over a Wet Bed by a SPH Technique. Journal of Waterway, Port, Coastal and Ocean Engineering, 134(6), 313-320.
  68. A.J.C. Crespo, M. Gómez-Gesteira, R.A. Dalrymple (2007). 3D SPH Simulation of large waves mitigation with a dike. Journal of Hydraulic Research, 45, Issue 5, 631-642.
  69. A.J.C. Crespo, M. Gómez-Gesteira, R.A. Dalrymple (2007). Boundary Conditions Generated by Dynamic Particles in SPH Methods. Computers, Materials & Continua, 5(3), 173-184.
  1. C. Altomare; G. Viccione; B. Tagliafierro; V. Bovolin; J.M. Domínguez; A.J.C. Crespo. Free surface flow simulations with Smoothed Particle Hydrodynamics method using High Performance Computing. Computational Fluid Dynamics – Basic Instruments and Applications in Science. InTech, 2018. ISBN 978-953-51-3791-7.
  2. J.M. Domínguez; A. Barreiro; A.J.C. Crespo; O. García-Feal; M. Gómez-Gesteira. Parallel CPU/GPU Computing for Smoothed Particle Hydrodynamics Models. Recent Advances in Fluid Dynamics with Environmental Applications. pp. 477 – 491. Springer, 2016. ISBN 978-3-319-27964-0.
  3. A. Barreiro; J.M. Domínguez; A.J.C. Crespo; O. García-Feal; M. Gómez-Gesteira. Smoothed Particle Hydrodynamics for Free-Surface Flows. Selected Topics of Computational and Experimental Fluid Mechanics Environmental Science and Engineering. pp. 119 – 136. Springer, 2015. ISBN 978-3-319-11486-6.
  4. A.J.C. Crespo; M. Gómez-Gesteira; M. de Castro; I. Álvarez; J.M. Domínguez; A. Barreiro. Estudo de inundacións e elaboracións de mapas de risco para a provincia de Ourense mediante modelo numérico. Proxectos INOU 2012. Investigación aplicada na provincia de Ourense. pp. 91 – 116. Vicerreitoría do Campus de Ourense, 2014. ISBN 978-84-8158-636-7.
  5. J.M. Domínguez; A.J.C. Crespo; M. Gómez-Gesteira; M. de Castro. Simulación numérica da escorrentía en estradas. Proxectos INOU 2013. Investigación aplicada na provincia de Ourense. A.J.C. Crespo, pp. 59 – 76. Vicerreitoría do Campus de Ourense, 2014. ISBN 978-84-8158-660-2.
  6. J.M. Zavala Ake; A.J.C. Crespo; M. Gómez-Gesteira; J. Klapp; S. Galindo. The Link Cell Method Using Compute Unified Device Architecture and the Message Passing Interface Standard. Experimental and Theoretical Advances in Fluid Dynamics. pp. 227 – 236. SPRINGER-VERLAG BERLING HEIDELBERG, 2012. ISBN 978-3-642-17957-0.
  7. A.J.C. Crespo; J.M. Domínguez; A. Barreiro; D.G. Galego; M. Gómez-Gesteira. Técnica lagrangiana de simulación de fluidos aplicada a la protección de costas. Métodos y técnicas en investigación marina. pp. 315 – 332. TECNOS (GRUPO ANAYA, S.A.), 2011. ISBN 978-84-309-5208-3.
  8. I. Iglesias; M.N. Lorenzo; M. Gómez-Gesteira; M. de Castro; I. Álvarez; A. J. C. Crespo; J.J. Taboada; J.L.G. Gesteira. Utilización de la temperatura superficial del mar para estudios climáticos.Métodos y técnicas en investigación marina. pp. 333 – 344. Tecnos (Grupo Anaya, S.A.), 2011. ISBN 978-84-309-5208-3.
  9. R.A. Dalrymple; M. Gómez-Gesteira; B.D. Rogers; A. Panizzo; S. Zou; A.J.C. Crespo; G. Cuomo; M. Narayanaswamy. Smoothed Particle Hydrodynamics for Water Waves. Advances in numerical simulation of nonlinear water waves. pp. 465 – 495. WORLD SCIENTIFIC PUBLISHING, 2007. ISBN 978-84-690-6159-6.
  10. A.J.C. Crespo; M. Gómez-Gesteira; A. Souto-Iglesias; Louis Delorme; J. M. Grassa. SPHERIC. SPH EUROPEAN RESEARCH INTEREST COMMUNITY. SPHERIC. SPH EUROPEAN RESEARCH INTEREST COMMUNITY. AICA EDICIONES, 2007. ISBN 978-84-690-6159-6.

Conferencias invitadas en congresos internacionais nos últimos anos:

  • “DualSPHysics: a numerical tool to study extreme floods and debris flows”. II International Congress on Water: Floods and Droughts. Ourense (Spain), 27/10/2016.
  • “SPH modelling in engineering: coastal protection and WECs design”. 10a Jornadas de Hidráulica, Recursos Hídricos e Ambiente. Porto (Portugal), 27/04/2016.
  • “DualSPHysics to real-life engineering problems”. SPH Workshop at FHR. Antwerp (Belgium), 07/02/2014.
  • “SPH Simulation of Coastal Problems with GPUs”. Smoothed Particle Hydrodynamics (SPH) – Grand Challenges and State-of-the-art for Industrial Applications. Manchester (United Kingdom), 10/10/2013.
  • “Smoothed Particle Hydrodynamics applied in fluid structure interaction” 7th Subrata Chakrabarti International Conference on Fluid Structure Interaction. Gran Canaria (Spain), 10/04/2013.
  • “A massively parallel Smoothed Particle Hydrodynamics scheme using CPU-GPU clusters”. CCP12 Meshless + HPC Workshop. Cardiff (United Kingdom), 16/05/2012.

Comunicacións orais en congresos internacionais nos últimos anos:

  • “On the state-of-the-art of CFD simulations for WECs within the open-source numerical framework of DualSPHysics”. 15th European Wave and Tidal Energy Conference– EWTEC 2013. Bilbao (Spain), 5/09/2023.
  • “DualSPHysics code coupled with multiphysics library to simulate Wave Energy Converters”. CCP-WSI CODE DEVELOPERS WORKSHOP 2. ONLINE, 07/04/2021.
  • “SPH modelling of extreme loads exerted onto a point absorber WEC” 4th International Conference on Renewable Energies Offshore – RENEW 2020. Lisbon (Portugal), 12/10/2020.
  • “Numerical simulation of the full non-linear behaviour of Wave Energy Converters”. 13th European Wave and Tidal Energy Conference – EWTEC 2019. Naples (Italy), 1/09/2019.
  • “Smoothed Particle Hydrodynamics: A Lagrangian method for wave energy devices”. Congreso Bienal de la Real Sociedad Matemática Española – RSME 2019. Santander (Spain), 04/02/2019.
  • “Survivability of floating moored offshore structures studied with DualSPHysics”. 13th SPHERIC International Workshop. Galway (Ireland), 26/06/2018.
  • “Floating moored Oscillating Water Column with meshless SPH method”. 37th International Conference on Ocean, Offshore & Arctic Engineering – OMAE 2018. Madrid (Spain), 17/06/2018.
  • “Advanced fluid visualisation with DualSPHysics and Blender”. 11th SPHERIC International Workshop. Munich (Germany), 13/06/2016.
  • “HPC for smoothed particle hydrodynamics using multiGPU”. 4th Conference on Particle-Based Methods – PARTICLES 2015. Barcelona (Spain), 28/09/2015.
  • “Evaluation of reliability and efficiency of different boundary conditions in a SPH code”. 10th SPHERIC International Workshop. Parma (Italy), 16/06/2015.
  • “Hybridisation of a Wave Propagation Model (SWASH) and a Meshfree Particle Method (SPH) for Real Applications”. 3rd IAHR Europe Congress. Porto (Portugal), 14/04/2014.
  • “Simulating more than 1 billion SPH particles using GPU hardware acceleration”. 8th SPHERIC International Workshop. Trondheim (Norway), 04/06/2013.
  • “Numerical modelling of coastal defences using the Smoothed Particle Hydrodynamics method”. 4th International Conference on the Application of Physical Modelling to Port and Coastal Protection – COASTLAB12. Ghent (Belgium), 17/09/2012.

Listado de proxectos como INVESTIGADOR PRINCIPAL:

Título: SUPERVIVENCIA DE DISPOSITIVOS CAPTADORES DE ENERGÍA DE LAS OLAS (SURVIWEC)
Entidade financiadora: MINISTERIO DE CIENCIA E INNOVACIÓN
Cantidade financiada: 181500 Euros
Referencia: PID2020-113245RB-I00
Duración: 01/09/2021 – 31/08/2024 (35.97 meses)

Título: DISEÑO NUMÉRICO DE DISPOSITIVOS FLOTANTES PARA APROVECHAMIENTO DE ENERGÍA DE LAS OLAS: EFICIENCIA Y SUPERVIVENCIA (WELCOME)
Entidade financiadora: MINISTERIO DE ECONOMÍA, INDUSTRIA Y COMPETITIVIDAD
Cantidade financiada: 95590 Euros
Referencia: ENE2016-75074-C2-1-R
Duración: 30/12/2016 – 31/12/2020 (48.03 meses)

Título: DISEÑO NUMÉRICO DE CAJONES ANTIRREFLEJANTES EN EL PUERTO EXTERIOR DE PUNTA LANGOSTEIRA (NUMANTIA)
Entidade financiadora: CONSELLERÍA DE CULTURA, EDUCACIÓN E ORDENACIÓN UNIVERSITARIA (XUNTA DE GALICIA)
Cantidade financiada: 90000 Euros
Referencia: ED431F 2016/004
Duración: 01/01/2016 – 31/10/2019 (45.97 meses)

Título: PROGRAMA OPORTUNIUS – APOIO Á EXCELENCIA
Entidade financiadora: AXENCIA GALEGA DE INNOVACIÓN, CONSELLERÍA DE CULTUA, EDUCACIÓN E ORDENACIÓN UNIVERSITARIA
Cantidade financiada: 50000 Euros
Referencia: 2016CONVXGOPORTUNIUS
Duración: 01/01/2016 – 30/05/2017 (16.94 meses)

Título: ESTUDIO DE INUNDACIONES Y ELABORACION DE MAPAS DE RIESGO PARA LA PROVINCIA DE OURENSE MEDIANTE MODELADO NUMÉRICO.
Entidade financiadora: DIPUTACIÓN PROVINCIAL DE OURENSE
Cantidade financiada: 5000 Euros
Referencia: INOU12-03
Duración: 01/01/2012 – 31/12/2012 (11.97 meses)