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A Comparison of Numerical Modelling Techniques for Tidal Stream Turbine Analysis

Author

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  • Ian Masters

    (Zienkiewicz Centre for Computational Engineering, Swansea University, Swansea SA2 8PP, UK)

  • Alison Williams

    (Zienkiewicz Centre for Computational Engineering, Swansea University, Swansea SA2 8PP, UK)

  • T. Nick Croft

    (Zienkiewicz Centre for Computational Engineering, Swansea University, Swansea SA2 8PP, UK)

  • Michael Togneri

    (Zienkiewicz Centre for Computational Engineering, Swansea University, Swansea SA2 8PP, UK)

  • Matt Edmunds

    (Zienkiewicz Centre for Computational Engineering, Swansea University, Swansea SA2 8PP, UK)

  • Enayatollah Zangiabadi

    (Zienkiewicz Centre for Computational Engineering, Swansea University, Swansea SA2 8PP, UK)

  • Iain Fairley

    (Zienkiewicz Centre for Computational Engineering, Swansea University, Swansea SA2 8PP, UK)

  • Harshinie Karunarathna

    (Zienkiewicz Centre for Computational Engineering, Swansea University, Swansea SA2 8PP, UK)

Abstract

To fully understand the performance of tidal stream turbines for the development of ocean renewable energy, a range of computational models is required. We review and compare results from several models of horizontal axis turbines at different spatial scales. Models under review include blade element momentum theory (BEMT), blade element actuator disk, Reynolds averaged Navier Stokes (RANS) CFD (BEM-CFD), blade-resolved moving reference frame and coastal models based on the shallow water equations. To evaluate the BEMT, a comparison is made to experiments with three different rotors. We demonstrate that, apart from the near-field wake, there are similarities in the results between the BEM-CFD approach and a coastal area model using a simplified turbine fence at a headland case.

Suggested Citation

  • Ian Masters & Alison Williams & T. Nick Croft & Michael Togneri & Matt Edmunds & Enayatollah Zangiabadi & Iain Fairley & Harshinie Karunarathna, 2015. "A Comparison of Numerical Modelling Techniques for Tidal Stream Turbine Analysis," Energies, MDPI, vol. 8(8), pages 1-21, July.
    • Handle: RePEc:gam:jeners:v:8:y:2015:i:8:p:7833-7853:d:53425
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    References listed on IDEAS

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    Cited by:

    1. Zhen Qin & Xiaoran Tang & Yu-Ting Wu & Sung-Ki Lyu, 2022. "Advancement of Tidal Current Generation Technology in Recent Years: A Review," Energies, MDPI, vol. 15(21), pages 1-18, October.
    2. Leidy Tatiana Contreras & Omar Dario Lopez & Santiago Lain, 2018. "Computational Fluid Dynamics Modelling and Simulation of an Inclined Horizontal Axis Hydrokinetic Turbine," Energies, MDPI, vol. 11(11), pages 1-23, November.
    3. Tian, Linlin & Song, Yilei & Zhao, Ning & Shen, Wenzhong & Zhu, Chunling & Wang, Tongguang, 2020. "Effects of turbulence modelling in AD/RANS simulations of single wind & tidal turbine wakes and double wake interactions," Energy, Elsevier, vol. 208(C).
    4. Alfredo Alcayde & Quetzalcoatl Hernandez-Escobedo & David Muñoz-Rodríguez & Alberto-Jesus Perea-Moreno, 2022. "Worldwide Research Trends on Optimizing Wind Turbine Efficiency," Energies, MDPI, vol. 15(18), pages 1-7, September.
    5. Togneri, Michael & Lewis, Matt & Neill, Simon & Masters, Ian, 2017. "Comparison of ADCP observations and 3D model simulations of turbulence at a tidal energy site," Renewable Energy, Elsevier, vol. 114(PA), pages 273-282.
    6. Zangiabadi, E. & Masters, I. & Williams, Alison J. & Croft, T.N. & Malki, R. & Edmunds, M. & Mason-Jones, A. & Horsfall, I., 2017. "Computational prediction of pressure change in the vicinity of tidal stream turbines and the consequences for fish survival rate," Renewable Energy, Elsevier, vol. 101(C), pages 1141-1156.
    7. Shives, Michael & Crawford, Curran, 2016. "Adapted two-equation turbulence closures for actuator disk RANS simulations of wind & tidal turbine wakes," Renewable Energy, Elsevier, vol. 92(C), pages 273-292.
    8. Nash, S. & Phoenix, A., 2017. "A review of the current understanding of the hydro-environmental impacts of energy removal by tidal turbines," Renewable and Sustainable Energy Reviews, Elsevier, vol. 80(C), pages 648-662.
    9. Stephen Nash & Agnieszka I. Olbert & Michael Hartnett, 2015. "Towards a Low-Cost Modelling System for Optimising the Layout of Tidal Turbine Arrays," Energies, MDPI, vol. 8(12), pages 1-19, November.
    10. Kiran Siddappaji & Mark Turner, 2022. "Improved Prediction of Aerodynamic Loss Propagation as Entropy Rise in Wind Turbines Using Multifidelity Analysis," Energies, MDPI, vol. 15(11), pages 1-44, May.
    11. Rahimian, Masoud & Walker, Jessica & Penesis, Irene, 2018. "Performance of a horizontal axis marine current turbine– A comprehensive evaluation using experimental, numerical, and theoretical approaches," Energy, Elsevier, vol. 148(C), pages 965-976.
    12. Gauvin-Tremblay, Olivier & Dumas, Guy, 2022. "Hydrokinetic turbine array analysis and optimization integrating blockage effects and turbine-wake interactions," Renewable Energy, Elsevier, vol. 181(C), pages 851-869.
    13. Angus C. W. Creech & Alistair G. L. Borthwick & David Ingram, 2017. "Effects of Support Structures in an LES Actuator Line Model of a Tidal Turbine with Contra-Rotating Rotors," Energies, MDPI, vol. 10(5), pages 1-25, May.
    14. Soheil Radfar & Bijan Kianoush & Meysam Majidi Nezhad & Mehdi Neshat, 2022. "Developing an Extended Virtual Blade Model for Efficient Numerical Modeling of Wind and Tidal Farms," Sustainability, MDPI, vol. 14(21), pages 1-17, October.
    15. Jiayan Zhou & Huijuan Guo & Yuan Zheng & Zhi Zhang & Cong Yuan & Bin Liu, 2023. "Research on Wake Field Characteristics and Support Structure Interference of Horizontal Axis Tidal Stream Turbine," Energies, MDPI, vol. 16(9), pages 1-16, May.
    16. Chuhua Jiang & Xuedao Shu & Junhua Chen & Lingjie Bao & Hao Li, 2020. "Research on Performance Evaluation of Tidal Energy Turbine under Variable Velocity," Energies, MDPI, vol. 13(23), pages 1-14, November.
    17. Marco Piano & Peter E. Robins & Alan G. Davies & Simon P. Neill, 2018. "The Influence of Intra-Array Wake Dynamics on Depth-Averaged Kinetic Tidal Turbine Energy Extraction Simulations," Energies, MDPI, vol. 11(10), pages 1-21, October.
    18. Murray, Robynne E. & Ordonez-Sanchez, Stephanie & Porter, Kate E. & Doman, Darrel A. & Pegg, Michael J. & Johnstone, Cameron M., 2018. "Towing tank testing of passively adaptive composite tidal turbine blades and comparison to design tool," Renewable Energy, Elsevier, vol. 116(PA), pages 202-214.
    19. Fairley, I. & Karunarathna, H. & Masters, I., 2018. "The influence of waves on morphodynamic impacts of energy extraction at a tidal stream turbine site in the Pentland Firth," Renewable Energy, Elsevier, vol. 125(C), pages 630-647.
    20. Niebuhr, C.M. & Schmidt, S. & van Dijk, M. & Smith, L. & Neary, V.S., 2022. "A review of commercial numerical modelling approaches for axial hydrokinetic turbine wake analysis in channel flow," Renewable and Sustainable Energy Reviews, Elsevier, vol. 158(C).
    21. María José Suárez-López & Rodolfo Espina-Valdés & Víctor Manuel Fernández Pacheco & Antonio Navarro Manso & Eduardo Blanco-Marigorta & Eduardo Álvarez-Álvarez, 2019. "A Review of Software Tools to Study the Energetic Potential of Tidal Currents," Energies, MDPI, vol. 12(9), pages 1-19, May.

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