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5. A solar and wind clustering framework with downscaling and bias correction of reanalysis data using singular value decomposition. (2025). Szklo, Alexandre ; Schaeffer, Roberto ; Simon, Emanuel.
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   RePEc:eee:energy:v:319:y:2025:i:c:s0360544225006085.

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6. Techno-economics of offshore wind power in global resolution. (2025). Breyer, Christian ; Bogdanov, Dmitrii ; Satymov, Rasul.
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7. Comparative Analysis of Global Onshore and Offshore Wind Energy Characteristics and Potentials. (2024). Tumse, Sergen ; Bilgili, Mehmet ; Sahin, Besir ; Yildirim, Alper.
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8. Spatial and temporal evolution of cost-competitive offshore hydrogen in China: A techno-economic analysis. (2024). Zhou, Zhou ; Huang, Yuping ; Chen, Xiaoyu ; Nie, Shuai ; Bai, Ruxue ; Cai, Guotian.
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9. Metocean conditions at two Norwegian sites for development of offshore wind farms. (2024). Jiang, Zhiyu ; Li, Lin ; Cheynet, Etienne.
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10. Temporal dynamics and extreme events in solar, wind, and wave energy complementarity: Insights from the Polish Exclusive Economic Zone. (2024). Sapiega, Patryk ; Jurasz, Jakub ; Temiz, Irina ; Canales, Fausto A ; Jonasson, Erik ; Kasiulis, Egidijus.
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11. Evaluation of MSWX Bias-Corrected Meteorological Forcing Datasets in China. (2023). Yang, YI ; Wang, Shuyu ; Tang, Jianping ; Lin, Hai ; Dong, Guangtao.
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12. Examining the Potential of Marine Renewable Energy: A Net Energy Perspective. (2023). Samso, Roger ; Crespin, Julia ; Sole, Jordi ; Garcia-Olivares, Antonio.
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13. Temporally and Spatially Resolved Simulation of the Wind Power Generation in Germany. (2023). Lehneis, Reinhold ; Thran, Daniela.
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14. The properties of the global offshore wind turbine fleet. (2023). Schindler, Dirk ; Jung, Christopher.
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15. Finding space for offshore wind to support net zero: A methodology to assess spatial constraints and future scenarios, illustrated by a UK case study. (2023). Gourvenec, Susan ; Putuhena, Hugo ; Sturt, Fraser ; White, David.
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16. Geospatial analysis of Indonesias bankable utility-scale solar PV potential using elements of project finance. (2023). Praktiknjo, Aaron ; Zhou, Yilong ; Isabella, Olindo ; Blok, Kornelis ; Langer, Jannis ; Quist, Jaco ; Ashqar, Ziad ; Kwee, Zenlin.
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17. Research on wind speed behavior prediction method based on multi-feature and multi-scale integrated learning. (2023). Hongkun, LU ; Ruizhang, Liu ; Huaxin, Liu ; Xinyu, Hang ; Xiaoxia, Gao ; Yao, Chen ; Xiaoxun, Zhu ; Zixu, XU.
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18. Leveraging the existing German transmission grid with dynamic line rating. (2023). Glaum, Philipp ; Hofmann, Fabian.
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19. Development of a computable general equilibrium model based on integrated macroeconomic framework for ocean multi-use between offshore wind farms and fishing activities in Scotland. (2023). Qu, Yang ; Yan, Xiaoyu ; Hooper, Tara ; Austen, Melanie C ; Huang, Junling ; Papathanasopoulou, Eleni.
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20. Perspectives and Challenges Related Offshore Wind Turbines in Deep Water. (2022). Nielsen, Finn Gunnar.
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21. Potentials of Renewable Energy Sources in Germany and the Influence of Land Use Datasets. (2022). Risch, Stanley ; Maier, Rachel ; Stenzel, Peter ; Pflugradt, Noah ; Kotzur, Leander ; Du, Junsong ; Stolten, Detlef.
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22. Analysing the uncertainties of reanalysis data used for wind resource assessment: A critical review. (2022). Gualtieri, G.
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23. Balancing profitability of energy production, societal impacts and biodiversity in offshore wind farm design. (2022). Lappalainen, J ; Heinonen, J ; Tikkanen, H ; Virtanen, E A ; Atlaskin, E ; Moilanen, A ; Viitasalo, M ; Tikanmaki, M ; Nurmi, M ; Kallasvuo, M.
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24. Modelling and analysis of offshore energy hubs. (2022). Bakker, Steffen J ; Grossmann, Ignacio E ; Zhang, Hongyu ; Svendsen, Harald G ; Knudsen, Brage Rugstad ; Tomasgard, Asgeir.
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25. Validation of the representativeness of wind speed time series obtained from reanalysis data for Brazilian territory. (2022). de Aquino, Saulo Custodio ; Maaira, Paula Medina ; Cyrino, Fernando Luiz.
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26. Towards global validation of wind power simulations: A multi-country assessment of wind power simulation from MERRA-2 and ERA-5 reanalyses bias-corrected with the global wind atlas. (2022). Wehrle, Sebastian ; Regner, Peter ; Zeyringer, Marianne ; Gruber, Katharina ; Schmidt, Johannes.
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27. Understanding the Impacts of Blue Economy Growth on Deep-Sea Ecosystem Services. (2021). Mejjad, Nezha ; Rovere, Marzia.
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28. Towards a Zero-Carbon Electricity System for India in 2050: IDEEA Model-Based Scenarios Integrating Wind and Solar Complementarity and Geospatial Endowments. (2021). Roy, Joyashree ; Balachandra, P. ; Das, Nandini ; Padhi, Lavanya ; Jyothiprakash, Varun ; Dinesha, Disha L ; Chatterjee, Sourish ; Dasgupta, Shyamasree ; Thakur, Biswajit ; Some, Shreya ; Patil, Balachandra ; Sharma, Samridh ; Mukherjee, Arijit ; Debsarkar, Anupam ; Bosu, Parthaa ; Lugovoy, Oleg.
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29. Review of Renewable Energy Potentials in Indonesia and Their Contribution to a 100% Renewable Electricity System. (2021). Blok, Kornelis ; Langer, Jannis ; Quist, Jaco.
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30. A review of the role of spatial resolution in energy systems modelling: Lessons learned and applicability to the North Sea region. (2021). Martinez-Gordon, R ; Sijm, J ; Morales-Espaa, G ; Faaij, A. P. C., .
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31. Accurate long-term power generation model for offshore wind farms in Europe using ERA5 reanalysis. (2021). Stocks, Matthew ; Hayes, Liam ; Blakers, Andrew.
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32. Feasibility study of Chinas electric power sector transition to zero emissions by 2050. (2021). Gao, Shuo ; Lugovoy, Oleg ; Jiang, Kejun.
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33. Wind Generation Forecasting Methods and Proliferation of Artificial Neural Network: A Review of Five Years Research Trend. (2020). Nazir, Muhammad Shahzad ; Ali, Ziad M ; Alshmrany, Sami ; Sanjeevikumar, P ; Bilal, Muhammad ; Alturise, Fahad ; Abdalla, Ahmad N.
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34. Regional Study of Changes in Wind Power in the Indian Shelf Seas over the Last 40 Years. (2020). Kumar, Sanil V ; Amrutha, M M ; George, Jesbin ; Asok, Aswathy B.
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35. Proliferation of offshore wind farms in the North Sea and surrounding waters revealed by satellite image time series. (2020). Xu, Wenxuan ; Wu, Wei ; Lu, Wanyun ; Yang, Renfei ; Li, Huiting ; Zhao, Bingxue ; Liu, Yongxue ; Dong, Yanzhu.
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36. A systematic review and meta-analysis of GIS use to reveal trends in offshore wind energy research and offer insights on best practices. (2020). Cummins, Valerie ; Remmers, Tiny ; Murphy, Jimmy ; Peters, Jared L ; Wheeler, Andrew J.
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37. Development of wind energy market in the European Union. (2020). Borawski, Piotr ; Jankowski, Krzysztof Joef ; Dunn, James W ; Dubis, Bogdan ; Bedycka-Borawska, Aneta.
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38. Levelised cost of energy, A challenge for offshore wind. (2020). Littler, Timothy ; Doran, John ; Johnston, Barry ; Foley, Aoife.
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39. A parametric model for wind turbine power curves incorporating environmental conditions. (2020). Staffell, Iain ; Jansen, Malte ; Dubus, Laurent ; Gruber, Katharina ; Schmidt, Johannes ; Troccoli, Alberto ; Saint-Drenan, Yves-Marie ; Simes, Sofia G ; Heier, Siegfried ; Besseau, Romain.
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40. Opportunities for reducing curtailment of wind energy in the future electricity systems: Insights from modelling analysis of Great Britain. (2020). Avagyan, Vitali ; Villamor, Lila Vazquez ; Chalmers, Hannah.
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    RePEc:eee:energy:v:195:y:2020:i:c:s0360544219324727.

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41. A geographic information system-based global variable renewable potential assessment using spatially resolved simulation. (2020). Chu, Cheng-Ta ; Hawkes, Adam D.
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    RePEc:eee:energy:v:193:y:2020:i:c:s0360544219323254.

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42. Contribution of offshore wind to the power grid: U.S. air quality implications. (2020). Browning, Morgan S ; Lenox, Carol S.
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    RePEc:eee:appene:v:276:y:2020:i:c:s0306261920309867.

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43. Offshore gas production infrastructure reutilisation for blue energy production. (2019). Juki, L ; Sedlar, Karasalihovi D ; Krajai, G ; Vulin, D.
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    RePEc:eee:rensus:v:108:y:2019:i:c:p:159-174.

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44. Continental-scale assessment of the African offshore wind energy potential: Spatial analysis of an under-appreciated renewable energy resource. (2019). Elsner, Paul.
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    RePEc:eee:rensus:v:104:y:2019:i:c:p:394-407.

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45. Global levelised cost of electricity from offshore wind. (2019). Staffell, Iain ; Bosch, Jonathan ; Hawkes, Adam D.
    In: Energy.
    RePEc:eee:energy:v:189:y:2019:i:c:s0360544219320523.

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46. Improved maintenance optimization of offshore wind systems considering effects of government subsidies, lost production and discounted cost model. (2019). Tuyet, Thi Anh ; Chou, Shuo-Yan.
    In: Energy.
    RePEc:eee:energy:v:187:y:2019:i:c:s0360544219315877.

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47. Geographical optimization of variable renewable energy capacity in China using modern portfolio theory. (2019). Crijns-Graus, Wina ; Harmsen, Robert ; Hu, Jing ; Worrell, Ernst.
    In: Applied Energy.
    RePEc:eee:appene:v:253:y:2019:i:c:74.

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