Bergen Offshore Wind Centre (BOW)

Vitenskapelige publikasjoner

Publikasjoner fra Bergen Offshore Wind Centre.



  • Pryor, S. C., R. J. Barthelmie, J. Cadence, K. Dyer, C. Hasager, R. Herring, S. T. Kral, R. Prieto, J. Reuder, M. Rodgers, M. Veraat, 2021Atmospheric drivers of wind turbine blade leading edge erosion: Hydrometeors.IEA Wind TCP Task 46 Technical Report, 46pp. (access)
  • Wang, S.; De Roo, F.; Thobois, L.; Reuder, J. Characterization of Terrain-Induced Turbulence by Large-Eddy Simulation for Air Safety Considerations in Airport Siting. Atmosphere 2022, 13, 952. https://doi.org/10.3390/atmos13060952 (access)
  • Krutova, M., Bakhoday-Paskyabi, M., Reuder, J., and Nielsen, F. G.: Development of an automatic thresholding method for wake meandering studies and its application to the data set from scanning wind lidar, Wind Energ. Sci., 7, 849–873, https://doi.org/10.5194/wes-7-849-2022, 2022. (access)
  • Hannah E. Petrie, Christian H. Eide, Haflidi Haflidason, Timothy Watton; A conceptual geological model for offshore wind sites in former ice stream settings: The Utsira Nord site, North Sea. Journal of the Geological Society 2022; doi: https://doi.org/10.1144/jgs2021-163 (access)
  • Duscha, C., Barrell, C., Renfrew, I.A., Brooks, I.A., Sodemann, H., and Reuder, J.A Ship-Based Characterization of Coherent Boundary-Layer Structures Over the Lifecycle of a Marine Cold-Air Outbreak.Boundary-Layer Meteorol (2022). (access
  • Nybø, A., Nielsen, F.G Godvik, M. (2022). Sensitivity of the dynamic response of a multimegawatt floating wind turbine to the choice of turbulence model. Wind Energy (access


  • Bange, J., Reuder, J. & Platis, A. (2021). Unmanned Air Vehicle Measurements. In Foken. T (Ed.), Springer Handbook of Atmospheric Measuresments (Chapter 48). Springer Nature Switzerland AG (access)
  • Cheynet, E., Flügge, M., Reuder, J., Jakobsen, J. B., Heggelund, Y., Svardal, B., Garfias, P.B., Obhrai, C., Daniotti, N., Bergen, J., Duscha, C., Wildmann, N., Onarheim, I., H. & Godvik, M. (2021). The COTUR project: remote sensing of offshore turbulence for wind energy application. Atmospheric Measurement Techniques, 14 (9) (access)
  • Christakos, K., Björkqvist, J.V., Tuomi, L. Furevik, B. R. & Breivik, Ø. (2021).  Modelling wave growth in narrow fetch geometries: The white-capping and wind input formulations. Ocean Modelling, 157, 101730. (access
  • Daniotti, N., Jakobsen, J. B., Snæbjörnsson, J., Cheynet, E., & Wang, J. (2021). Observations of bridge stay cable vibrations in dry and wet conditions: A case study. Journal of Sound and Vibration, 503, 116106. (access
  • Hente, C., Gebhardt, C. & Rolfes, R. (2021). On the static analysis of nonlinear beam and shell structures with singular stiffness matrices due to redundant coordinates. Thin-Walled Structures, 161, 107496. (access)
  • Gebhardt, C. & Romero, I. (2021). On a nonlinear rod exhibiting only axial and bending deformations: mathematical modeling and numerical implementation. Acta Mechanica, 232, 3825-3847 (access)
  • Herrera Anchustegui, Ignacio and Rodrigues, Nuno Cunha, Extraterritorial Effects of EU Law on Gas Pipelines: The Case of Gazprom and Nord Stream 2 (May 1, 2021). Rodrigues, Nuno Cunha (ed) “Extraterritoriality of EU Economic Law” (Springer, 2021)(access)
  • Herrera Anchustegui, I. (2021). Distributive justice, community benefits and renewable energy: the case of offshore wind projects. In Fleming, Ruven, Huhta, Kaisa, Reins & Leonie (eds.). Sustainable Energy Democracy and the Law (Brill Publishers, 2021)  
  • Midjiyawa, Z., Cheynet, E., Reuder, J., Ágústsson & Kvamsdal, T. (2021). Potential and challenges of wind measurements using met-masts in complex terrain for bridge design: Part I – Integral flow characteristics. Journal of Wind Engineering & Industrial Aerodynamics, 211, 104584. (access
  • Midjiyawa, Z., Cheynet, E., Reuder, J., Ágústsson & Kvamsdal, T. (2021). Potential and challenges of wind measurements using met-masts in complex terrain for bridge design: Part II- Spectral flow characteristics. Journal of Wind Engineering & Industrial Aerodynamics, 211, 104585. (access
  • Ning, X., Krutova, M. & Paskyabi, M., P. (2021). Analysis of offshore wind spectra and coherence under neutral stability condition using the two LES models PALM and SOWFA. Journal of Physics: Conference Series (JPCS)
  • Nybø, A. Nielsen, F.G. & Godvik, M. (2021). Analysis of turbulence models fitted to site, and their impact on the response of a bottom-fixed wind turbine. Journal of Physics: Conference Series, 2018, 012028. (access)
  • Nybø, A., Nielsen F.G. & Godvik, M. (2021) Quasi-static response of a bottom-fixed wind turbine subject to various incident wind fields. Wind Energy (access
  • Solbrekke, I.M., Sorteberg, A. & Haakenstad, H. (2021). The 3 km Norwegian reanalysis (NORA 3) - a validation of offshoe wind resources in the North Sea and the Norwegian Sea. Wind Energy Science, 6, 1501-1519. (access)


  • Bartl, J., Hansen, T.H., Kuhn, W.L., Mühle, F., & Sætran, L. (2020) Vortex interaction in the wake of a two- and three-bladed wind turbine. Journal of Physics: Conference Series, 1669, 012027.(access)
  • Cheynet, E., Daniotti, N., Jakobsen, J. B., & Snæbjörnsson, J. (2020). Improved long‐span bridge modeling using data‐driven identification of vehicle‐induced vibrations. Structural Control Health Monitoring, 27 (9). (access)
  • Cheynet, E., Liu, S., Ong, M. C., Jakobsen, J. B., & Snæbjörnsson, J. (2020). The influence of terrain on the mean wind flow characteristics in a fjord. Journal of Wind Engineering & Industrial Aerodynamics, 205, 10433. (access
  • Christiakos, K., Furevik, B. R., Aarnes, O.J., Breivik, Ø., Tuomi, L. & Byrkjedal, Ø. (2020). The importance of wind forcing in fjord wave modelling. Ocean Dynamics , 70, 57-75 (access)
  • Christakos, K., Varlas, G., Cheliotis, I., Spyrou, C., Aarnes, O. J., & Furevik, B., R. (2020). Characterization of Wind-Sea-and Swell-Induced Wave Energy along the Norwegian Coast. Atmosphere, 11 (2), 166. (access)
  • Colombo, E. (2020). “Det norske paradokset” I Klimasøksmål Arktis: ein rettsleg analyse av økonomiske vurderingar. Retfærd, 2, 47-70. (access
  • Duscha, C., Paskyabi, M. B., & Reuder, J. (2020). Statistic and Coherence Response of Ship-based Lidar Observations to Motion Compensation. Journal of Physics: Conference Series, 1669, 012020(access)
  • High Level Panel for a Sustainable Ocean Economy report: What Role for Ocean-Based Renewable Energy and Deep-Seabed Minerals in a Sustainable Future? Co-authored by BOW director Finn Gunnar Nielsen.
  • Furevik, B. R., Ágústsson, H., Lauen Borg, A., Zakari, M., Nyhammer, F. & Gausen, M. (2020). Meterological observations in tall masts for mapping of atmospheric flow in Norwegian fjords. Earth System Science Data, 12, 3621-3640 (access)
  • Haugan, P.M., L.A. Levin, D. Amon, M. Hemer, H. Lily and F.G. Nielsen. 2020. What Role for Ocean-Based Renewable Energy and Deep Seabed Minerals in a Sustainable Future? Washington, DC: World Resources Institute.
  • Herrera Anchustegui, I. (2020). Is Hywind Tampen’s State Aid Approval a Kickstart for the Norwegian Offshore Wind Industry? Decision 017/20/COL Hywind Tampen, EFTA Surveillance Authority. European State Aid Law Quarterly, 19 (2)225-231.(access)
  • Herrera Anchustegui, I. & Østrem, K. (2020, February). The Norwegian Offshore Wind Paradox: Energy sea production compliant with EEA law?. EFTA-Studies.org (access)
  • Klein, A., & Haugland, D. (2020). Optimization of reliable cyclic cable layouts in offshore wind farms. Engineering optimization, 53 (2). (access)
  • Konow, B. (2020). Nordic Perspectives on Contract and Property Law with an Environmental Perspective: Examples from Norway. In Demeyere, S. & Sagaert, V. (Eds.) Contract and Property with an Environmental Perspective (pp 267-286). Intersentia 
  • Krutova, M., Paskyabi, M.B., Nielsen, F.G., & Reuder, J. (2020). Evaluation of Gaussian wake models under different atmospheric stability conditions: Comparison with large eddy simulation results.  Journal of Physics: Conference Series, 1669, 012016.  (access)
  • Mühle, F, Bartl, J, Hansen, T, Adaramola, MS, Sætran, L. An experimental study on the effects of winglets on the tip vortex interaction in the near wake of a model wind turbine. Wind Energy. 2020; 1– 15. (access)
  • Myrtvedt, M. H., Nybø, A., & Nielsen, F. G. (2020). The dynamic response of offshore wind turbines and their sensitivity to wind field models. Journal of Physics: Conference Series, 1669, 012013. (access)
  • Nybø, A., Nielsen, F., G., Reuder, J., Churchfield, M. J., & Godvik, M. (2020). Evaluation of different wind fields for the investigation of the dynamic response of offshore wind turbines. Wind energy, 23(9),1810-183. (access)
  • Paskyabi, M. B. (2020). A wavelet-entropy based segmentation of turbulence measurements from a moored shear probe near the wavy sea surface. SN Applied Sciences, 2, 102. (access)
  • Paskyabi, M. B. (2020). Ocean surface hidden structures in the Lofoten area of the Norwegian Sea. Dynamics of atmospheres and oceans, 92, 101173. (access
  • Paskyabi, M.B., Krutova, M., Nielsen, F.G., Reuder, J., & El Guernaoui, O. (2020). On Stochastic Reduced-Order and LES-based Models of Offshore Wind Turbine Wakes.  Journal of Physics: Conference Series, 1669, 012018. (access)
  • Paskyabi, M. B. (2020). Predictive Analysis of Machine Learning Schemes in Forecasting of Offshore Wind. Journal of Physics: Conference Series, 1669, 012017.(access)
  • Raj, R., Halo, I., Chatterjee, S., Belonenko, T., Paskyabi M. B., et al. , Interaction between mesoscale eddies and the gyre circulation in the Lofoten Basin, J. Geophys. Res., 2020. (access)
  • Solbrekke, I. M., Kvamstø, N.G, & Sorteberg, A. (2020). Mitigation of offshore wind power intermittency by interconnection of production sites. Wind Energy Science, 5, 1663-167 (access
  • Soliman Hunter,T., Herrera Anchustegui, I., Crossley, P. & Alvarez, G. M. (2020). Routledge Handbook of Energy Law. Abingdon: Routledge


  • Nybø, A., Nielsen, F.G. & Reuder, J. (2019). Processing of sonic anemometer measurements for offshore wind turbine applications. Journal of Physics: Conference Series. 1356. 012006. 10.1088/1742-6596/1356/1/012006. (access)
  • High Level Panel for a Sustainable Ocean Economy report: The Ocean as a Solution for Climate Change: 5 Opportunities for Action (Chapter on renewable energy co-authored by Finn Gunnar Nielsen and Peter Haugan)
  • Flügge, M., Paskyabi, M.B., Reuder, J. & El Guernaoui, O (2019) Wind stress in the coastal zone: Observations from a buoy in Southwestern Norway. Atmosphere, 10(9), 491; DOI:10.3390/atmos10090491 (access)
  • Wagner, D., Steinfeld, G., Witha, B., Wurps, H. & Reuder, J (2019). Low Level Jets over the Southern North Sea. Meteorologische Zeitschrift, Online first, DOI:10.1127/metz/2019/0948 (access)
  • Schütz, S. E. & Slater, A. (2019) From strategic marine planning to project licences – Striking a balance between predictability and adaptability in the management of aquaculture and offshore wind farms. Marine Policy p. 1-11UiB  (access)