L. E. Myers and A. S. Bahaj, Simulated electrical power potential harnessed by marine current turbine arrays in the Alderney Race, Renew. Energy, vol.30, pp.1713-1731, 2005.

O. A. Lo-brutto, M. Barakat, S. S. Guillou, J. Thiébot, and H. Gualous, Influence of the wake effect on electrical dynamics of commercial tidal farms: Application to the Alderney Race (France), Methodology for estimating the French tidal current energy resource, IEEE Trans. Sustain. Energy, vol.9, pp.321-332, 2018.

E. Segura, R. Morales, and J. A. Somolinos, Cost Assessment Methodology and Economic Viability of Tidal Energy Projects, vol.10, 1086.

V. T. Nguyen, S. S. Guillou, A. Cruz, and J. Thiébot, Numerical simulation of a pilot tidal farm using actuator disks, influence of a time-varying current direction, Proceedings of the Grand Renewable Energy Conference, 2014.

A. S. Bahaj and L. E. Myers, Analytical estimates of the energy yield potential from the Alderney Race (Channel Islands) using marine current energy converters, Renew. Energy, vol.29, 1931.

J. Thiébot, P. B. Bois, and S. Guillou, Numerical modeling of the effect of tidal stream turbines on the hydrodynamics and the sediment transport-Application to the Alderney Race, France. Renew. Energy, vol.75, pp.356-365, 2015.

N. Guillou and G. Chapalain, Tidal turbine's layout in a stream with asymmetry and misalignment, vol.10, p.1892, 2017.

N. Guillou and G. Chapalain, Assessing the impact of tidal stream energy extraction on the Lagragian circulation, Appl. Energy, vol.203, pp.321-332, 2017.

S. P. Neill, R. M. Hashemi, and M. J. Lewis, The role of tidal asymmetry in characterizing the tidal energy resource of Orkney, Renew. Energy, vol.68, pp.337-350, 2014.

C. Frost, P. S. Evans, M. J. Harrolds, A. Mason-jones, D. M. O'doherty et al., The impact of axial flow misalignment on a tidal turbine, Renew. Energy, vol.113, pp.1333-1344, 2017.

N. Guillou, S. P. Neill, and P. E. Robins, Characterising the tidal stream power resource around France using a high-resolution harmonic database, Renew. Energy, vol.123, pp.706-718, 2018.
URL : https://hal.archives-ouvertes.fr/hal-01865261

D. S. Coles, L. S. Blunden, and A. S. Bahaj, Assessment of the energy extraction potential at tidal sites around the Channel Islands, vol.124, pp.171-186, 2017.

R. Campbell, A. Martinez, C. Letetrel, and A. Rio, Methodology for estimating the French tidal current energy resource, Int. J. Mar. Energy, vol.19, pp.256-271, 2017.

M. Thiébaut and A. Sentchev, Asymmetry of tidal currents off the W. Brittany coast and assessment of tidal energy resource around the Ushant Island, Renew. Energy, vol.105, pp.735-747, 2017.

M. Lewis, S. P. Neill, P. E. Robins, and M. R. Hashemi, Resource assessment for future generations of tidal-stream energy arrays, vol.83, pp.403-415, 2015.

P. K. Modali, N. Kolekar, and A. Banerjee, Performance and wake characteristics of a tidal turbine under yaw, IMEJ, vol.1, pp.41-50, 2018.

W. Tian, J. H. Vanzwieten, P. Pyakurel, and Y. Li, Influences of yaw angle and turbulence intensity, vol.111, pp.104-116, 2016.

M. G. Gebreslassie, M. R. Belmont, and G. R. Taylor, Comparison of Analytical and CFD Modelling of the Wake Interactions of Tidal Turbines, Proceedings of the 10th EWTEC Conference, pp.2-5, 2013.

T. Divett, R. Vennell, and C. Stevens, Optimization of multiple turbine arrays in a channel with tidally reversing flow by numerical modelling with adaptive mesh, Philos. Trans. R. Soc. A, vol.371, 2013.

G. Bai, J. Li, P. Fan, and G. Li, Numerical investigations of the effects of different arrays on power extractions of horizontal axis tidal current turbines, Renew. Energy, vol.53, pp.180-186, 2013.

A. Olczak, T. Stallard, T. Feng, and P. Stansby, Comparison of a RANS blade element model for tidal turbine arrays with laboratory scale measurements of wake velocity and rotor thrust, J. Fluids Struct, vol.64, pp.87-106, 2016.

P. Mycek, B. Gaurier, G. Germain, G. Pinon, and E. Rivoalen, Experimental study of the turbulence intensity effects on marine current turbines behaviour. Part II: Two interacting turbines, Renew. Energy, vol.68, pp.876-892, 2014.

R. Malki, I. Masters, A. J. Williams, and T. N. Croft, Planning tidal stream turbine array layouts using a coupled blade element momentum-Computational fluid dynamics model, Renew. Energy, vol.63, pp.46-54, 2014.

S. Draper and T. Nishino, Centered and staggered arrangements of tidal turbines, J. Fluid Mech, vol.739, pp.72-93, 2014.

M. G. Gebreslassie, G. R. Taylor, and M. R. Belmont, Investigation of the performance of a staggered configuration of tidal turbines using CFD, Renew. Energy, vol.80, pp.690-698, 2015.

M. J. Churchfield, Y. Li, and P. J. Moriarty, A large-eddy simulation study of wake propagation and power production in an array of tidal-current turbines, Philos. Trans. R. Soc. A, vol.371, 2013.

L. E. Myers and A. S. Bahaj, An experimental investigation simulating flow effects in first generation marine current energy converter arrays, Renew. Energy, vol.37, pp.28-36, 2012.

M. Belhache, S. Guillou, P. Grangeret, D. Mouaze, and A. Santa-cruz, Wake numerical study of a vertical marine current turbine, Houille Blanche, vol.6, pp.73-77, 2014.
URL : https://hal.archives-ouvertes.fr/hal-01702034

B. Wu, X. Zhang, J. Chen, M. Xu, S. Li et al., Design of high-efficient and universally applicable blades of tidal stream turbine, vol.60, pp.187-194, 2013.

C. Frost, C. E. Morris, A. Mason-jones, D. M. O'doherty, and T. O'doherty, The effect of tidal flow directionality on tidal turbine performance characteristics, Renew. Energy, vol.78, pp.609-620, 2015.

S. Antheaume, T. Maître, and J. L. Achard, Hydraulic Darrieus turbines efficiency for free fluid flow conditions versus power farms conditions, Renew. Energy, vol.33, pp.2186-2198, 2008.

T. Roc, D. C. Conley, and D. Greaves, Methodology for tidal turbine representation in ocean circulation model, Renew. Energy, vol.51, pp.448-464, 2013.

S. H. Lee, S. H. Lee, K. Jang, J. Lee, and N. Hur, A numerical study for the optimal arrangement of ocean current turbine generators in the ocean current power parks, Curr. Appl. Phys, vol.10, pp.137-141, 2010.

W. Hunter, T. Nishino, and R. H. Willden, Investigation of Tidal Turbine Array Tuning Using 3D Reynolds-Averaged Navier-Stokes Simulations, Int. J. Mar. Energy, vol.10, pp.39-51, 2015.

L. E. Myers and A. S. Bahaj, Experiment analysis of the flow field around horizontal axis tidal turbines by use of scale mesh disk rotor simulators. Ocean Eng, vol.37, pp.218-227, 2010.

F. Castellani and F. Vignaroli, An application of the actuator disc model for wind turbine wakes calculations, Appl. Energy, vol.101, pp.432-440, 2013.

G. I. Taylor, The Scientific Papers of Sir Geoffrey Ingram Taylor

G. K. Batchelor and . Ed, , 1963.

V. T. Nguyen, S. S. Guillou, J. Thiébot, and A. Santa-cruz, Modelling turbulence with an Actuator Disk representing a tidal turbine, Renew. Energy, vol.97, pp.625-635, 2016.
URL : https://hal.archives-ouvertes.fr/hal-02073699

M. Lewis, S. P. Neill, P. E. Robins, M. R. Hashemi, and S. Waer, Characteristics of the velocity profile at tidal-stream energy sites, vol.114, pp.258-272, 2017.

M. E. Harrison, W. M. Batten, L. E. Myers, and A. S. Bahaj, Comparison between CFD simulation and experiments for predicting the far wake of horizontal axis tidal turbines, IET Renew. Power Gener, vol.4, pp.613-627, 2010.

R. Vennell, S. W. Funke, S. Draper, C. Stevens, and T. Divett, Designing large arrays of tidal turbines: A synthesis and review, Renew. Sustain. Energy Rev, vol.41, pp.454-472, 2015.

C. Garrett and P. Cummins, The efficiency of a turbine in a tidal channel, J. Fluid Mech, vol.588, pp.243-251, 2007.

T. Nishino and R. H. Willden, Effect of 3-D channel blockage and turbulent wake mixing on the limit of power extraction by tidal turbines, Int. J. Heat Fluid Flow, vol.37, pp.123-135, 2012.

T. Nishino and R. H. Willden, The efficiency of an array of tidal turbines partially blocking a wide channel, J. Fluid Mech, vol.708, pp.596-606, 2012.

T. Nishino and R. H. Willden, Two-scale dynamics of flow past a partial cross-stream array of tidal turbines, J. Fluid Mech, vol.730, pp.220-244, 2013.

J. M. Hervouet, Hydrodynamics of Free Surface Flows: Modelling with the Finite-Element Method

P. B. Bois, F. Dumas, L. Solier, and C. Voiseux, Situ database toolbox for short-term dispersion model validation in macro-tidal seas, application for 2D-model, Cont. Shelf Res, vol.36, pp.63-82, 2012.

M. Palm, R. Huijsmans, and M. Pourquie, The Applicability of Semi-Empirical Wake Models for Tidal Farms, Proceedings of the 9th European Wave and Tidal Energy Conference, pp.5-9, 2011.

L. Bai, R. R. Spence, and G. Dudzak, Investigation of the Influence of Array Arrangement and Spacing on Tidal Energy Converter (TEC) performance using a 3-Dimensional CFD Model, Proceedings of the 8th European Wave and Tidal Energy Conference, pp.654-660, 2009.

P. Galloway, L. E. Myers, and A. S. Bahaj, Experimental and numerical results of rotor power and thrust of a tidal turbine operating at yaw and in waves, Proceedings of the World Renewable Energy Congress, pp.8-13, 2011.

A. Bourgoin, S. S. Guillou, R. Ata, J. Thiébot, and S. T. Benhamadouche, Currents characterization with Large Eddy Simulation, Proceedings of the 3th Asian Waves and Tides Energy Conference, pp.9-12, 2018.

M. J. Lewis, S. P. Neill, M. R. Hashemi, and M. Reza, Realistic wave conditions and their influence on quantifying the tidal stream energy resource, Appl. Energy, vol.136, pp.495-508, 2014.