Overview of resource and turbine modelling in the Tidal Stream Industry Energiser Project: TIGER

E. Mackay; J. Hardwick; P. Thies; J. Thiébot; P. Mercier; M. Grondeau; S. Guillou; D. Coles; J. Miles; G. Pinon; M. Sedrati; P. Ouro; H. Mullings; T. Stallard

doi:10.36688/ewtec-2023-577

Overview of resource and turbine modelling in the Tidal Stream Industry Energiser Project: TIGER

E. Mackay^*
, J. Hardwick
, P. Thies
, J. Thiébot
, P. Mercier
, M. Grondeau
, S. Guillou
, D. Coles
, J. Miles
, G. Pinon
, M. Sedrati
, P. Ouro
, H. Mullings
, T. Stallard

^*Corresponding author for this work

Research output: Contribution to journal › Conference proceedings published in a journal › peer-review

Abstract

Tidal energy projects require numerical modelling for the assessment of tidal site conditions and turbine/array performance. The Interreg TIGER project has offered a unique opportunity to implement a wide range of numerical models. This paper provides an overview and comparison of the different numerical models developed by academic partners in the TIGER project. The models cover a variety of spatial and temporal scales. The largest scale models provide long-term climatic studies covering the entire English Channel region, at relatively low resolution, whilst the highest-resolution models provide detailed information about short-term and small-scale turbulent flow and its interaction with tidal turbines. The models are used for various purposes. At one end of the scale, the models have been used to inform the large-scale technoeconomic assessment of tidal energy and its impact on the energy mix in the UK and France. At the other end of the scale, the numerical models provide information that feeds into detailed engineering design of tidal turbines at particular sites, and assessment of the energy yield. The models showcase the range of computational tools available to aid the development of the tidal energy industry. This paper will be useful for investors, technology developers and project stakeholders to help identify suitable numerical models to support and develop ongoing and future tidal stream projects.

Original language	English
Journal	Proceedings of the European Wave and Tidal Energy Conference
Volume	15
DOIs	https://doi.org/10.36688/ewtec-2023-577
Publication status	Published - 2 Sept 2023
Event	15th European Wave and Tidal Energy Conference, EWTEC 2023 - Bilbao, Spain Duration: 3 Sept 2023 → 7 Sept 2023

UN SDGs

This output contributes to the following UN Sustainable Development Goals (SDGs)

SDG 7 Affordable and Clean Energy

ASJC Scopus subject areas

Renewable Energy, Sustainability and the Environment
Water Science and Technology
Energy Engineering and Power Technology
Ocean Engineering

Keywords

Loads modelling
Resource Assessment
Turbulence
Wake modelling
WaveCurrent interaction

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10.36688/ewtec-2023-577

Cite this

Mackay, E., Hardwick, J., Thies, P., Thiébot, J., Mercier, P., Grondeau, M., Guillou, S., Coles, D., Miles, J., Pinon, G., Sedrati, M., Ouro, P., Mullings, H., & Stallard, T. (2023). Overview of resource and turbine modelling in the Tidal Stream Industry Energiser Project: TIGER. Proceedings of the European Wave and Tidal Energy Conference, 15. https://doi.org/10.36688/ewtec-2023-577

@article{34f1cdc1d7e0408a8a98b25d263428b2,

title = "Overview of resource and turbine modelling in the Tidal Stream Industry Energiser Project: TIGER",

abstract = "Tidal energy projects require numerical modelling for the assessment of tidal site conditions and turbine/array performance. The Interreg TIGER project has offered a unique opportunity to implement a wide range of numerical models. This paper provides an overview and comparison of the different numerical models developed by academic partners in the TIGER project. The models cover a variety of spatial and temporal scales. The largest scale models provide long-term climatic studies covering the entire English Channel region, at relatively low resolution, whilst the highest-resolution models provide detailed information about short-term and small-scale turbulent flow and its interaction with tidal turbines. The models are used for various purposes. At one end of the scale, the models have been used to inform the large-scale technoeconomic assessment of tidal energy and its impact on the energy mix in the UK and France. At the other end of the scale, the numerical models provide information that feeds into detailed engineering design of tidal turbines at particular sites, and assessment of the energy yield. The models showcase the range of computational tools available to aid the development of the tidal energy industry. This paper will be useful for investors, technology developers and project stakeholders to help identify suitable numerical models to support and develop ongoing and future tidal stream projects.",

keywords = "Loads modelling, Resource Assessment, Turbulence, Wake modelling, WaveCurrent interaction",

author = "E. Mackay and J. Hardwick and P. Thies and J. Thi{\'e}bot and P. Mercier and M. Grondeau and S. Guillou and D. Coles and J. Miles and G. Pinon and M. Sedrati and P. Ouro and H. Mullings and T. Stallard",

note = "Publisher Copyright: {\textcopyright} 2023 European Wave and Tidal Energy Conference. This paper has been subjected to single-blind peer review.; 15th European Wave and Tidal Energy Conference, EWTEC 2023 ; Conference date: 03-09-2023 Through 07-09-2023",

year = "2023",

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doi = "10.36688/ewtec-2023-577",

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Mackay, E, Hardwick, J, Thies, P, Thiébot, J, Mercier, P, Grondeau, M, Guillou, S, Coles, D, Miles, J, Pinon, G, Sedrati, M, Ouro, P, Mullings, H & Stallard, T 2023, 'Overview of resource and turbine modelling in the Tidal Stream Industry Energiser Project: TIGER', Proceedings of the European Wave and Tidal Energy Conference, vol. 15. https://doi.org/10.36688/ewtec-2023-577

TY - JOUR

T1 - Overview of resource and turbine modelling in the Tidal Stream Industry Energiser Project

T2 - 15th European Wave and Tidal Energy Conference, EWTEC 2023

AU - Mackay, E.

AU - Hardwick, J.

AU - Thies, P.

AU - Thiébot, J.

AU - Mercier, P.

AU - Grondeau, M.

AU - Guillou, S.

AU - Coles, D.

AU - Miles, J.

AU - Pinon, G.

AU - Sedrati, M.

AU - Ouro, P.

AU - Mullings, H.

AU - Stallard, T.

PY - 2023/9/2

Y1 - 2023/9/2

N2 - Tidal energy projects require numerical modelling for the assessment of tidal site conditions and turbine/array performance. The Interreg TIGER project has offered a unique opportunity to implement a wide range of numerical models. This paper provides an overview and comparison of the different numerical models developed by academic partners in the TIGER project. The models cover a variety of spatial and temporal scales. The largest scale models provide long-term climatic studies covering the entire English Channel region, at relatively low resolution, whilst the highest-resolution models provide detailed information about short-term and small-scale turbulent flow and its interaction with tidal turbines. The models are used for various purposes. At one end of the scale, the models have been used to inform the large-scale technoeconomic assessment of tidal energy and its impact on the energy mix in the UK and France. At the other end of the scale, the numerical models provide information that feeds into detailed engineering design of tidal turbines at particular sites, and assessment of the energy yield. The models showcase the range of computational tools available to aid the development of the tidal energy industry. This paper will be useful for investors, technology developers and project stakeholders to help identify suitable numerical models to support and develop ongoing and future tidal stream projects.

AB - Tidal energy projects require numerical modelling for the assessment of tidal site conditions and turbine/array performance. The Interreg TIGER project has offered a unique opportunity to implement a wide range of numerical models. This paper provides an overview and comparison of the different numerical models developed by academic partners in the TIGER project. The models cover a variety of spatial and temporal scales. The largest scale models provide long-term climatic studies covering the entire English Channel region, at relatively low resolution, whilst the highest-resolution models provide detailed information about short-term and small-scale turbulent flow and its interaction with tidal turbines. The models are used for various purposes. At one end of the scale, the models have been used to inform the large-scale technoeconomic assessment of tidal energy and its impact on the energy mix in the UK and France. At the other end of the scale, the numerical models provide information that feeds into detailed engineering design of tidal turbines at particular sites, and assessment of the energy yield. The models showcase the range of computational tools available to aid the development of the tidal energy industry. This paper will be useful for investors, technology developers and project stakeholders to help identify suitable numerical models to support and develop ongoing and future tidal stream projects.

KW - Loads modelling

KW - Resource Assessment

KW - Turbulence

KW - Wake modelling

KW - WaveCurrent interaction

UR - https://www.scopus.com/pages/publications/85175307645

U2 - 10.36688/ewtec-2023-577

DO - 10.36688/ewtec-2023-577

M3 - Conference proceedings published in a journal

AN - SCOPUS:85175307645

SN - 2706-6932

VL - 15

JO - Proceedings of the European Wave and Tidal Energy Conference

JF - Proceedings of the European Wave and Tidal Energy Conference

Y2 - 3 September 2023 through 7 September 2023

ER -

Overview of resource and turbine modelling in the Tidal Stream Industry Energiser Project: TIGER

Abstract

UN SDGs

ASJC Scopus subject areas

Keywords

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