Your search keyword '"Offshore wind power plants"' showing total 5,839 results

1. Analysis of non-uniform grid-forming control techniques for the HVDC connection of renewable energy

Author

Beneit-Barajas, Adrián, Penades-Huesca, Patricia, and Martínez-Turégano, Jaime

Published

2025

2. Opportunistic maintenance optimisation for offshore wind farm with considering random wind speed.

Author

Su, Chun and Wu, Lin

Subjects

OFFSHORE wind power plants, WIND speed, MARKOV chain Monte Carlo, MARKOV processes, K-means clustering

Abstract

A joint maintenance decision-making framework is proposed to optimise the long-term maintenance plan and lower the maintenance cost for offshore wind farms. The historical wind speed data are screened by using the method of k-means clustering, and Markov chains are established for the wind speed in different seasons. On this basis, the approach of Markov chain Monte Carlo is applied to simulate the distribution of repair vessel's waiting time for maintenance, where the impact of wind speed on maintenance availability is considered. Moreover, the components in wind turbines are divided into four states according to their effective ages, i.e. young, mature, old and failed, respectively. A maintenance decision model is established, with the objective to minimise maintenance cost. Besides, three types of opportunistic maintenance are considered, i.e. failure-based opportunistic maintenance (FBOM), event-based opportunistic maintenance (EBOM) and age-based opportunistic maintenance (ABOM), respectively. The enhanced elitist genetic algorithm (SEGA) is adopted to solve the optimisation problem. The results indicate that among the three types of opportunistic maintenance, ABOM can reduce maintenance cost more effectively, and it is more suitable for long-term maintenance plans of offshore wind farm. [ABSTRACT FROM AUTHOR]

Published

2024

3. Experimental studies on lateral bearing capacity of modified tripod suction caissons for offshore wind turbines in silty clay.

Author

Ma, Shili, Xie, Liquan, and Ji, Yifan

Subjects

*WIND power, *OFFSHORE wind power plants, *LATERAL loads, *CAISSONS, *CONSTRUCTION costs, *BEARING capacity of soils

Abstract

In recent years regular tripod suction caissons are commonly used in offshore wind farm projects because of economic feasibility and environment-friendly work principles. The design of a modified tripod suction caisson composed of three caissons with different diameters can improve the capacity behaviour in the direction of strong wind within a considered construction cost. This paper carried out model tests to study the lateral bearing capacity of modified tripod suction caissons in silty clay. Based on the equilibrium equation of vertical force of modified tripod suction caissons the average vertical subgrade reaction modulus is proposed to investigate the relationship between it and rotation, which is of paramount importance to the nonlinear lateral bearing capacity. The results show that the range of bearing capacity factors increases with the increasing effective diameter-height ratio indicating that modified tripod suction caisson with reasonable combinations can effectively improve its bearing capacity in a certain loading direction. The sum of the bearing capacity factors of three monopod suction caissons falls in the range of the capacity factors of the tripod foundation consisting of the above caissons. Suction under the lid increases with the increasing lateral load and seems to be not related to the combinations of suction caissons with different diameters. By fitting the experimental data, it is found that there is a power exponential relationship between the average vertical subgrade reaction modulus and rotation of the foundation. [ABSTRACT FROM AUTHOR]

Published

2025

4. Optimal Scheduling of Island Microgrids with Seawater Pumped Storage Plants for Multi‐Energy Complementarity.

Author

Su, Shiwei, Chai, Huarui, Lin, Jianbo, Yi, Chengming, and Li, Xin

Subjects

*PARTICLE swarm optimization, *OCEAN energy resources, *ENERGY development, *ENERGY storage equipment, *PUMPED storage power plants, *DIESEL electric power-plants, *PHOTOVOLTAIC power generation, *OFFSHORE wind power plants

Abstract

The rapid development of new energy sources, such as offshore wind power and photovoltaic power, has provided a new solution to the problem of power supply for islands far from the mainland. Wave energy is a kind of renewable energy originated from the ocean, but the existing island power supply programs seldom consider this favorable natural condition. In addition, seawater variable‐speed pumped storage is a new idea to consume offshore wind power and improve the reliability of coastal and island power systems. In view of the stochastic and intermittent nature of new energy sources, this paper adopts seawater variable‐speed pumped storage power plants as energy storage equipment, and put forward an island power supply scheme with wind power, photovoltaic power generation, wave power generation, pumped storage power plants and diesel generator sets as a multifunctional complementary isolated grid. Firstly, wave energy generators, wind farms, photovoltaic farms, pumped storage power stations and diesel generator sets are modeled separately. Then, considering their respective operating conditions, constraints and load requirements, the optimal scheduling of island microgrids with multi‐energy complementarity is constructed. Finally, based on the improved particle swarm optimization algorithm, the model is solved. According to the wind power photovoltaic and wave power output curves of several typical scenarios in an island far away from the mainland, the cost and benefit of different schemes are compared to verify the effectiveness of the optimal scheduling in this paper. © 2024 Institute of Electrical Engineers of Japan and Wiley Periodicals LLC. [ABSTRACT FROM AUTHOR]

Published

2025

5. Enabling Power System Restoration from Offshore Wind Power Plants in the UK.

Author

Alves, Rui, Yang, Ning, Xu, Lie, and Egea-Àlvarez, Agustí

Subjects

*OFFSHORE wind power plants, *INDEPENDENT system operators, *ELECTRIC transients, *REACTIVE power

Abstract

This paper presents the findings from the initial phases of the SIF BLADE project, focused on demonstrating the capabilities of an offshore wind power plant (OWPP) for power system restoration (PSR). It provides an overview of PSR, highlighting its challenges and operational requirements, alongside the various scenarios considered in the project. The study includes a steady-state analysis to assess whether the OWPP can meet local network demands for both active and reactive power. Results indicate that the OWPP can operate within an envelope that covers all local power requirements. Additionally, electromagnetic transient (EMT) analysis was conducted to evaluate different percentages of grid-forming (GFM) converter penetration during the energisation process. These analyses aimed to determine compliance with transmission system operator (TSO) requirements. Findings demonstrate that all GFM penetration levels met the necessary TSO standards. Furthermore, a novel small-signal analysis was performed to identify the optimal percentage of GFM converters for enhancing system stability during block loading. The analysis suggests that for top-up scenarios, a GFM penetration between 20% and 40% is optimal, while for anchor scenarios, 40% to 60% GFM penetration enhances stability and robustness. [ABSTRACT FROM AUTHOR]

Published

2025

6. Offshore Network Development to Foster the Energy Transition.

Author

Carlini, Enrico Maria, Gadaleta, Corrado, Migliori, Michela, Longobardi, Francesca, Luongo, Gianfranco, Lauria, Stefano, Maccioni, Marco, and Dell'Olmo, Jacopo

Subjects

*OFFSHORE wind power plants, *ELECTRICAL load, *ENERGY development, *SHORT circuits, *WIND power

Abstract

A growing interest in offshore wind energy in the Mediterranean Sea has been recently observed thanks to the potential for scale-up and recent advances in floating technologies and dynamic cables: in the Italian panorama, the offshore wind connection requests to the National Transmission Grid (NTG) reached almost 84 GW at the end of September 2024. Starting from a realistic estimate of the offshore wind power plants (OWPPs) to be realized off the southern coasts in a very long-term scenario, this paper presents a novel optimization procedure for meshed AC offshore network configuration, aiming at minimizing the offshore wind generation curtailment based on the DC optimal power flow approximation, assessing the security condition of the whole onshore and offshore networks. The reactive power compensation aspects are also considered in the optimization procedure: the optimal compensation sizing for export cables and collecting stations is evaluated via the AC optimal power flow (OPF) approach, considering a combined voltage profile and minimum short circuit power constraint for the onshore extra-high voltage (EHV) nodes. The simulation results demonstrate that the obtained meshed network configuration and attendant re-active compensation allow most of the offshore wind generation to be evacuated even in the worst-case scenario, i.e., the N1 network, full offshore wind generation output, and summer line rating, testifying to the relevance of the proposed methodology for real applications. [ABSTRACT FROM AUTHOR]

Published

2025

7. Numerical Modeling and Analysis of Shadow Flicker Using Solar Path Functions for Enhanced Predictive Accuracy.

Author

Radke, Nicolai, De Smet, Patrick E. M., and Ábrahám, Erika

Subjects

*WIND turbine blades, *NUMERICAL roots, *NUMERICAL functions, *WIND turbines, *NUMERICAL analysis, *OFFSHORE wind power plants

Abstract

Shadow flicker caused by wind turbine blades passing through sunlight can significantly affect nearby residential buildings, raising environmental and regulatory concerns in wind farm development. The accurate assessment of shadow flicker exposure is critical for compliance and minimizing community impacts. We present a novel method for accurately determining the exposure of shadow flicker from wind turbines on residential buildings, addressing a key regulatory concern in wind farm planning. Current simulation techniques rely on discrete sampling of solar positions, resulting in potential inaccuracies tied to sampling resolution. Our proposed approach models shadow flicker as a continuous function and applies numerical minimization and numerical root finding to compute the duration of exposure. Our evaluation proves that this method achieves a superior balance between precision and computational efficiency, significantly improving existing techniques. [ABSTRACT FROM AUTHOR]

Published

2025

8. Seismic Interferometry for Single-Channel Data: A Promising Approach for Improved Offshore Wind Farm Evaluation.

Author

Wang, Rui, Hu, Bin, Zhang, Hairong, Zhang, Peizhen, Li, Canping, and Chen, Fengying

Subjects

*CROSS correlation, *OFFSHORE wind power plants, *NOISE, *WIND power plants

Abstract

Single-channel seismic (SCS) methods play a crucial role in offshore wind farm assessments, offering rapid and continuous imaging of the subsurface. Conventional SCS methods often fall short in resolution and signal completeness, leading to potential misinterpretations of geological structures. In this study, we propose the application of seismic interferometry as a powerful tool to address these challenges by utilizing multiple reflections that are usually considered as noise. First, we demonstrate the feasibility of using seismic interferometry to approximate the primary wavefield. Then, we evaluate a series of seismic interferometry applied in SCS data, including cross-correlation, deconvolution, and cross-coherence, and determine the most appropriate one for our purpose. Finally, by comparing and analyzing the differences in amplitude, continuity, time–frequency properties, etc., between conventional primary wavefield information and reconstructed primary wavefield information by seismic interferometry, it is proved that incorporating multiples as supplementary information through seismic interferometry significantly enhances data reliability and resolution. The introduction of seismic interferometry provides a more detailed and accurate geological assessment crucial for optimal site selection in offshore wind farm development. [ABSTRACT FROM AUTHOR]

Published

2025

9. Techno-economic assessment of a green liquid hydrogen supply chain for ship refueling.

Author

Lanni, Davide, Di Cicco, Gabriella, Minutillo, Mariagiovanna, Cigolotti, Viviana, and Perna, Alessandra

Subjects

*OFFSHORE wind power plants, *GREEN fuels, *LIQUID hydrogen, *RENEWABLE energy transition (Government policy), *MARITIME shipping

Abstract

Maritime transportation is an essential component of international trade and global economic growth: according to the 2021 Review of Maritime Transport, transportation by sea is responsible for more than 80% of the global product flow. To facilitate decarbonization and reduce pollutant emissions in the maritime sector, the International Maritime Organization (IMO) has set very ambitious targets, and hydrogen is one of the most promising energy vectors capable of supporting the required low-carbon energy transition. Recently, therefore, more attention has been paid to finding technical solutions for the development of hydrogen-based alternative propulsion systems and, at the same time, a hydrogen distribution infrastructure suitable for shipping. In this scenario, this study aims to analyze, through design, modeling and optimization approaches, the energy and economic performance of an offshore wind power plant integrated with a liquid hydrogen production system to be used for refueling ships far from ports. This study focuses on the development of an optimization procedure dedicated to finding the best technical solution in terms of component sizes and management strategies that ensure the minimum Levelized Cost of Hydrogen (LCOH). have highlighted that the proposed innovative plant configuration for the offshore liquid hydrogen production is able to produce 317 tons per year of green hydrogen with a LCOH of 16.77 €/kg by using 19 MW offshore wind farm and 5 MW PEM electrolyzer. [Display omitted] • Modeling of a liquid hydrogen production system powered by an offshore wind farm. • Analysis of energy and economic performances of the proposed system. • Identification of the optimal plant configuration based on the minimum hydrogen cost. • Investment, operating, maintenance and replacement costs breakdown assessment. • The levelized cost of hydrogen in the optimal configuration is 16.77 €/kg. [ABSTRACT FROM AUTHOR]

Published

2025

10. An Adaptive Voltage Reference-Based Multi-Objective Optimal Control Method for the Power Flow Symmetry of Multi-Terminal DC Systems with the Large-Scale Integration of Offshore Wind Farms.

Author

Zhang, Yuanshi, Feng, Yiwen, Xu, Tongxin, Li, Yilei, Du, Xinye, Yuan, Chaoyang, and Chen, Hongrui

Subjects

*INTERIOR-point methods, *MULTI-objective optimization, *ELECTRICAL load, *PARETO optimum, *ADAPTIVE control systems, *OFFSHORE wind power plants, *WIND power plants

Abstract

The optimization of the symmetry of MTDC systems after a contingency is crucial for the stable and economic operation of the MTDC systems. In this paper, a multi-objective optimal control method for the power flow symmetry of MTDC systems for the large-scale integration of offshore wind farms is proposed. A mirror relationship between the available headroom of DC lines and VSCs and their actual power flow distribution performance is established. A corresponding symmetry index is established for the MTDC network, and the multi-objective optimization problem is converted into a series of single-objective problems by the normal boundary intersection method, and solved by the original dyadic interior point method, so as to obtain the Pareto optimal solution with uniform distribution. The compromise optimal solution is decided according to the entropy weight double-basis point method, which provides decision-making guidance for the operators. The simulation results show that the normal boundary intersection method can solve the multi-objective dynamic optimal control problem of the VSC-HVDC system quickly and efficiently, and improve the symmetry of the power flow in an MTDC network. [ABSTRACT FROM AUTHOR]

Published

2025

11. Offshore Wind Power—Seawater Electrolysis—Salt Cavern Hydrogen Storage Coupling System: Potential and Challenges.

Author

Liu, Xiaoyi, Huang, Yashuai, Shi, Xilin, Bai, Weizheng, Huang, Si, Li, Peng, Xu, Mingnan, and Li, Yinping

Subjects

*RENEWABLE energy sources, *HYDROGEN as fuel, *ENERGY development, *HYDROGEN storage, *OFFSHORE wind power plants

Abstract

Offshore wind power construction has seen significant development due to the high density of offshore wind energy and the minimal terrain restrictions for offshore wind farms. However, integrating this energy into the grid remains a challenge. The scientific community is increasingly focusing on hydrogen as a means to enhance the integration of these fluctuating renewable energy sources. This paper reviews the research on renewable energy power generation, water electrolysis for hydrogen production, and large-scale hydrogen storage. By integrating the latest advancements, we propose a system that couples offshore wind power generation, seawater electrolysis (SWE) for hydrogen production, and salt cavern hydrogen storage. This coupling system aims to address practical issues such as the grid integration of offshore wind power and large-scale hydrogen storage. Regarding the application potential of this coupling system, this paper details the advantages of developing renewable energy and hydrogen energy in Jiangsu using this system. While there are still some challenges in the application of this system, it undeniably offers a new pathway for coastal cities to advance renewable energy development and sets a new direction for hydrogen energy progress. [ABSTRACT FROM AUTHOR]

Published

2025

12. Numerical Methodologies for the Analysis of Horizontal-Axis Floating Offshore Wind Turbines (F-HAWTs): A State-of-the-Art Review.

Author

Akbari Zadeh, Naghmeh, Ryan, Peter, Kennedy, David M., and O'Rourke, Fergal

Subjects

*TURBINE aerodynamics, *OFFSHORE wind power plants, *WIND turbines, *OFFSHORE gas well drilling, *MOORING of ships

Abstract

In recent decades, wind turbine installations have become a popular option to meet the world's growing demand for energy. Both onshore and offshore wind turbines form pivotal components of the electricity sector. Onshore wind energy is now a mature technology, with significant experience gained by wind farm developers and operators over the last couple of decades. However, as a more recent enterprise, the offshore wind industry still requires significantly more development before the technologies and operations reach maturity. To date, floating platforms at sea have been utilised extensively for the oil and gas industry. While a lot of the expertise and technology is transferable to the floating offshore wind industry, significant development work remains; for example, there is significant work required due to the different device types. Compared to floating oil and gas platforms, floating wind turbine platforms have a higher centre of gravity, which influences their performance and complexity. The successful large-scale development of floating offshore wind farms will require significant expertise and learning from the onshore wind, oil, and gas sectors. There are a wide range of software packages available to predict the operational behaviour of floating offshore wind turbines. In spite of this, it is still extremely difficult to create a fully coupled model of a floating wind turbine that can accurately and comprehensively model the turbine aerodynamics, hydrodynamics, servodynamics, structural dynamics, and mooring dynamics. This paper presents details on various fully coupled and uncoupled software packages and methodologies utilised to simulate floating offshore wind turbine performances. Various kinds of mooring systems, floating wind turbines, analysis methods, and experimental validation methods are comprehensively described. This paper serves as a reliable methodological guideline for researchers and wind industry professionals engaged in the design/analysis of wind farm projects. [ABSTRACT FROM AUTHOR]

Published

2025

13. Limited Evidence Base for Determining Impacts (Or Not) of Offshore Wind Energy Developments on Commercial Fisheries Species.

Author

Gill, Andrew B., Bremner, Julie, Vanstaen, Karen, Blake, Sylvia, Mynott, Frances, and Lincoln, Susana

Subjects

*FISHERIES, *WIND power, *LEGAL evidence, *ENERGY development, *CHONDRICHTHYES, *OFFSHORE wind power plants

Abstract

The coexistence between offshore wind and fisheries has raised questions about potential impacts on species that are fished. We systematically evaluated the offshore wind farm (OWF) literature for evidence of effects leading to impacts on commercial fisheries species. First, we collated evidence of environmental effects of OWFs on fisheries species and then determined whether these could be interpreted as impacts using fishery‐scale and organism‐scale parameters for pelagic finfish, demersal and reef‐associated roundfish, demersal flatfish, elasmobranchs and shellfish. We appraised consistency and level of agreement of direct evidence and explored the body of indirect evidence. A total of 1268 documents featured evidence of OWF effects on fisheries species, with only 60 documents (274 species records) providing direct evidence. Evidence on finfish far outweighed that for shellfish. Demersal and reef‐associated roundfish were the best‐studied group, while elasmobranchs were poorly evidenced. Most studies considered population rather than stock parameters. There was limited evidence of impacts, owing to inconclusive results and inconsistent effects within the parameters assessed—illustrating the importance of looking across the evidence base rather than focussing on individual studies. Hence, there is currently insufficient direct evidence to confidently determine OWF impacts on fisheries species. Overwhelmingly, the evidence deals with indirect effects, although these should not be disregarded as they can highlight plausible impacts on fisheries species, which could guide research and monitoring targeted at understanding the impacts of OWF—a pressing concern given the increased policy commitment of many nations to these two marine sectors sharing marine space. [ABSTRACT FROM AUTHOR]

Published

2025

14. Yüzer temelli açık deniz rüzgâr santralleri için ÇKKV yöntemleriyle uygun liman seçimi vaka analizi: Türkiye örneği.

Author

Canat, Ayşe Nuray and Özkan, Coşkun

Subjects

*OFFSHORE wind power plants, *MULTIPLE criteria decision making, *WIND turbines, *DECISION making, *MARINE terminals

Abstract

In order for offshore wind power plants, which are one of the renewable energy branches, to provide optimum service, to be low cost and highly beneficial, the installation, operation and maintenance stages should be carried out in a suitable port close to the power plant. In this port selection process, the criteria that ports should have differ according to the turbine structure to be installed. In the literature, there is no study on port location selection for floating wind turbines. In this study, the characteristics that ports should have for the life cycle of floating wind turbines at sea are obtained by examining the studies in the literature. For the selection of suitable ports, the Full Consistency Method (FUCOM), Best Worst Method (BWM), Common Weighting Method, Compromise Ranking of Alternatives from Distance to Ideal Solution Compromise Ranking of Alternatives from Distance to Ideal Solution (CRADIS), Combined Compromise Solution (CoCoSo) and Borda Method were used to contribute to the decision making process. Comparative analyses with other MCDM (Multi-criteria decision making) methods have been carried out to select the appropriate port. In the study, container and Ro-Ro ports in Turkey were used since the port characteristics should be provided at least at minimum level. Samsunport in the Black Sea region was found to be the most suitable port for all three port types (terminal, service and response). The criterion of having a component production facility was found to be the most important criterion for floating based offshore power plant terminal port selection. [ABSTRACT FROM AUTHOR]

Published

2025

15. Numerical Modeling of the Influence of Scour and Scour Protection on Monopile Dynamic Behavior.

Author

Mayall, Russell O., Burd, Harvey J., McAdam, Ross A., Byrne, Byron W., Whitehouse, Richard J. S., Heald, Steven G., and Slater, Phillipa L.

Subjects

*OFFSHORE wind power plants, *WIND turbines, *FLUMES, *OCEAN bottom, *SEDIMENTS

Abstract

Scour of seabed sediments can occur around offshore foundations. For monopile-supported offshore wind turbine structures, the reduction in foundation stiffness due to scour presents certain operational challenges. In cases where scour causes the natural frequency of the structure to become, for example, close to the range of rotor loading frequencies then—due to the increased risk of fatigue damage—turbine support structures are at risk of reduced operation, or even premature decommissioning. In practice, scour protection and/or remediation systems are typically used to mitigate the development of scour. As well as preventing further erosion, scour remediation systems may have a restorative effect on the stiffness of the foundation. This paper describes a one-dimensional (1D) finite-element model for the analysis of natural frequencies for monopile-supported turbine support structures with active scour process around the foundation. The model also incorporates procedures to model the influence of a rock fill scour remediation system on the foundation stiffness. The numerical model is calibrated and validated by comparison with a set of previously described reduced-scale model tests conducted in a flume. The calibrated 1D model is applied to a field case study at a UK offshore wind farm site. [ABSTRACT FROM AUTHOR]

Published

2025

16. Estimation of Wind Farm Losses Using a Jensen Model Based on Actual Wind Turbine Characteristics for an Offshore Wind Farm in the Baltic Sea.

Author

Malecha, Ziemowit and Chorowski, Maciej

Subjects

PRODUCTION losses, WIND power plants, MARICULTURE, ENERGY dissipation, WIND speed, OFFSHORE wind power plants

Abstract

This study investigates the effects of velocity deficits on the performance of wind turbines in multi-row wind farms, focusing on two types of turbines: Gamesa G132 and Gamesa SG8. The analysis examines the impact of turbine spacing on key performance metrics, including Annual Energy Production, energy production losses, and the capacity factor. Two models are used: the classical Jensen model, assuming a constant thrust coefficient ( C T ), and an updated model that incorporates the actual turbine-specific C T (U) characteristics. The results demonstrate that as turbine spacing decreases, the velocity deficit behind the turbines increases, leading to significant reductions in AEP and higher energy losses. These effects are particularly pronounced for spacings of 5D and 3D, raising concerns about the economic feasibility of such wind farms. This study also highlights that the proposed updated Jensen model, which accounts for the specific turbine characteristics, provides results that are closer to real-world observations. This study showed that for a Baltic Sea wind farm location, the capacity factor for the wind farm is in the range of 0.366 to 0.476, depending on the turbine spacing. [ABSTRACT FROM AUTHOR]

Published

2025

17. UK Project Management Round Up.

Author

Shepherd, Miles

Subjects

BUSINESS planning, BUSINESS enterprises, WILDLIFE reintroduction, STOCK prices, STAY-at-home orders, OFFSHORE wind power plants, HISTORIC buildings, CONSORTIA, POWER plants

Abstract

The article "UK Project Management Round Up" by Dr. Miles Shepherd provides an overview of recent developments in the UK's energy sector, focusing on projects related to power transmission, renewable energy, and infrastructure upgrades. The article highlights successful project submissions in the energy sector, challenges in meeting government targets for green energy capacity, and ongoing efforts to keep the lights on amidst increasing demand. Additionally, the article discusses a major road upgrade project in Wales, as well as other project news related to electricity prices, recycling initiatives, and defense industry partnerships. [Extracted from the article]

Published

2025

18. 适用于超大规模海上风电并网的直流送出系统.

Author

章浅诺, 张哲任, 金砚秋, and 徐 政

Subjects

ENERGY consumption, POWER transmission, SIMULATION methods & models, OFFSHORE wind power plants, VOLTAGE, TOPOLOGY

Abstract

Copyright of Electric Power Automation Equipment / Dianli Zidonghua Shebei is the property of Electric Power Automation Equipment Press and its content may not be copied or emailed to multiple sites or posted to a listserv without the copyright holder's express written permission. However, users may print, download, or email articles for individual use. This abstract may be abridged. No warranty is given about the accuracy of the copy. Users should refer to the original published version of the material for the full abstract. (Copyright applies to all Abstracts.)

Published

2025

19. 基于月度电量数据自适应伪增强的多海上 风电场联合竞价博弈模型.

Author

符 杨, 李 仪, 葛晓琳, 凡婉秋, 魏书荣, and 刘璐洁

Subjects

GENERATIVE adversarial networks, OFFSHORE wind power plants, WIND power, ELECTRICITY markets, PARALLEL processing

Abstract

Copyright of Electric Power Automation Equipment / Dianli Zidonghua Shebei is the property of Electric Power Automation Equipment Press and its content may not be copied or emailed to multiple sites or posted to a listserv without the copyright holder's express written permission. However, users may print, download, or email articles for individual use. This abstract may be abridged. No warranty is given about the accuracy of the copy. Users should refer to the original published version of the material for the full abstract. (Copyright applies to all Abstracts.)

Published

2025

20. Data Are Missing Again—Reconstruction of Power Generation Data Using k$$ k $$‐Nearest Neighbors and Spectral Graph Theory.

Author

Pierrot, Amandine and Pinson, Pierre

Subjects

GRAPH theory, WIND power, SPECTRAL theory, WIND forecasting, WEIGHTED graphs, OFFSHORE wind power plants

Abstract

The risk of missing data and subsequent incomplete data records at wind farms increases with the number of turbines and sensors. We propose here an imputation method that blends data‐driven concepts with expert knowledge, by using the geometry of the wind farm in order to provide better estimates when performing nearest neighbor imputation. Our method relies on learning Laplacian eigenmaps out of the graph of the wind farm through spectral graph theory. These learned representations can be based on the wind farm layout only or additionally account for information provided by collected data. The related weighted graph is allowed to change with time and can be tracked in an online fashion. Application to the Westermost Rough offshore wind farm shows significant improvement over approaches that do not account for the wind farm layout information. [ABSTRACT FROM AUTHOR]

Published

2025

21. Quantitative analysis model of wind energy resources in adjacent area of existing wind farms.

Author

Ma, Junpeng, Liu, Feiyan, Wang, Kairan, Xiao, Chenggang, and Liu, Zirui

Subjects

WIND power, POWER resources, WEIBULL distribution, PARAMETER estimation, ENERGY density, WIND power plants, OFFSHORE wind power plants

Abstract

To accurately analyze the risk resource reserves in the vicinity of wind farms and optimize the application of wind energy resources, a quantitative analysis model of wind energy resources in the vicinity of existing wind farms considering the roughness index and interference characteristics is studied. Collect and preprocess the wind energy resource data in the vicinity of existing wind farms in the national meteorological-related Internet, and build a risk resource analysis index system consisting of wind energy density, roughness index and interference characteristics according to relevant national standards; The parameter estimation method of Weibull distribution is used to calculate the density index of wind energy resources and the available hours index of wind energy resources. The roughness index is determined using the Monin–Obukhov consistent theory, and the correlation coefficient and stability are used to describe the interference characteristic index. The quantitative analysis results of wind energy resources in the vicinity of existing wind farms are obtained according to the calculation results. The experimental results show that the model can accurately calculate the roughness index and interference characteristics of the study area, and obtain high-precision quantitative analysis results for wind energy resources. [ABSTRACT FROM AUTHOR]

Published

2024

22. Potential Future Impacts (2016–2055) of Offshore Wind Energy Development on the Atlantic Surfclam, Spisula solidissima, Fishery in the US Mid‐Atlantic Bight Continental Shelf.

Author

Moya, Autumn L., Powell, Eric N., Scheld, Andrew M., Borsetti, Sarah, Klinck, John M., Hofmann, Eileen E., Spencer, Molly M., Curchitser, Enrique, and Munroe, Daphne M.

Subjects

*WIND power, *FISHERIES, *ENERGY development, *WIND power plants, *CONTINENTAL shelf, *OFFSHORE wind power plants

Abstract

ABSTRACT Offshore wind energy development on the Mid‐Atlantic Bight (MAB) portion of the Northwestern Atlantic continental shelf could have adverse impacts on the future of the Atlantic surfclam, Spisula solidissima, fishery. The current and potential future areas designated for offshore wind energy development overlap with the present‐day and projected Atlantic surfclam fishing grounds and so could limit the fishery. Fishery impacts imposed by displacement of fishing outside wind farm areas and possible restrictions on vessel transit through the wind farms were simulated using a spatially explicit fishery model. The distribution of catch, hours fished, landings per unit effort (LPUE), time at sea, fishing mortality, and the number of fishing trips were projected for five time periods encompassing the period of 2016–2055. Simulations showed a significant decline in the mean of all fishery metrics (apart from LPUE) as the area of wind farm restrictions increased in scale. Impacts were consistently larger when vessel transit through and fishing within offshore wind areas were prohibited. Impacts were also larger for MAB regions off New Jersey and Delmarva than regions farther north and east. These simulations highlight the necessity of evaluating future conditions as warming temperatures shift the surfclam range relative to the immobile wind farm locations. The offshore wind industry must consider projected long‐term impacts of developmental expansion on surrounding sedentary benthic species and the commercially important fisheries that rely on them. [ABSTRACT FROM AUTHOR]

Published

2024

23. Migratory movements of bats are shaped by barrier effects, sex-biased timing and the adaptive use of winds.

Author

Lagerveld, Sander, de Vries, Pepijn, Harris, Jane, Parsons, Sue, Debusschere, Elisabeth, Hüppop, Ommo, Brust, Vera, and Schmaljohann, Heiko

Subjects

ANIMAL migration, LIFE sciences, OFFSHORE wind power plants, WIND tunnels, MARICULTURE, ROOSTING, ECHOLOCATION (Physiology)

Abstract

Background: Migratory bats perform seasonal movements between their summer and winter areas. When crossing ecological barriers, like the open sea, they are exposed to an increased mortality risk due to energetically demanding long-distance flights and unexpected inclement weather events. How such barriers affect bat migratory movements is still poorly known. Methods: To study bat migration patterns in response to an ecological barrier, we tagged 44 Nathusius' pipistrelles Pipistrellus nathusii with radio-transmitters on the East coast of the United Kingdom (UK) in spring 2021 and 2022. Subsequently, we assessed their movements to continental Europe using the MOTUS Wildlife Tracking System. We investigated route selection, timing of migration, overall migration speed and the influence of wind on airspeed, groundspeed and flight altitude during migratory overseas flights. Results: Barrier effects cause migratory movements along the coast, and crossings over sea are shortened by deviating from the general migration direction. Males depart from the UK later in the season compared to females. The overall migration speed of females was 61 km/day and 88 km/day after their last detection in the UK. Our estimated airspeeds during oversea flights correspond well with airspeeds measured in a wind tunnel. Bats use wind adaptively to reduce airspeed when flying under tailwind and increase airspeed when flying under crosswind conditions. Departures over sea coincidence with tailwinds, enabling bats to more than double their airspeed, reaching ground speeds of up to 16.8 m/s (60.5 km/h). Our analysis suggests that bats select altitudes with favourable wind conditions and that they seek altitudes of several hundred meters, possibly extending up to 2,500 m. Low-altitude migration occurs when wind conditions are less favourable. Conclusions: Our study demonstrates that bat migratory movements are highly influenced by barrier effects, sex-biased timing of migration and the adaptive use of winds. The results of our study contribute to a more comprehensive understanding of the decision-making process and adaptations bats employ during their migration. Elucidating bat migration patterns will enable us to develop effective conservation measures, for example in relation to the development and operation of coastal and offshore wind farms. [ABSTRACT FROM AUTHOR]

Published

2024

24. Assessment of transmission network connection solutions based on HVAC for offshore wind.

Author

Deriu, Mattia, Migliori, Michela, Gadaleta, Corrado, Cortese, Marco, Carlini, Enrico Maria, Dicorato, Maria, Forte, Giuseppe, and Tricarico, Gioacchino

Subjects

*OFFSHORE wind power plants, *INDEPENDENT system operators, *OFFSHORE structures, *REACTIVE power, *ALTERNATING currents

Abstract

The diffusion of offshore wind power plants (OWPPs), useful to fulfil renewable diffusion policy targets, implies several technological challenges for integration in power transmission network. The definition of the OWPP connection to the transmission network affects possible exploitation of the assets, involves an evaluation of active power losses and loadability and points out the need for compensation devices, in order to comply with connection rules fixed by the grid operator. This paper proposes a methodology to determine the most suitable electric connection for an OWPP based on high‐voltage alternating current (HVAC) cables, for providing indications for transmission system operators. In particular, different HVAC connection schemes for OWPPs are analysed, focusing on new 66 kV standard voltage and high‐voltage levels, providing technical insight on transmission cable optimal operation conditions. An economic analysis is carried out by proper estimation of construction costs and production forecast, accounting for active power losses and reliability impact. The most suitable connection solution depending on OWPP size and distance in Italian framework is evaluated by means of synthetic techno‐economic indicators, further analysing possible sensitivities of energy price and capacity factor. [ABSTRACT FROM AUTHOR]

Published

2024

25. An Ensemble Network for High-Accuracy and Long-Term Forecasting of Icing on Wind Turbines.

Author

Dai, Jiazhi, Rotea, Mario, and Kehtarnavaz, Nasser

Subjects

*WIND turbine blades, *WIND turbines, *WIND forecasting, *OFFSHORE wind power plants, *FORECASTING

Abstract

Freezing of wind turbines causes loss of wind-generated power. Forecasting or prediction of icing on wind turbine blades based on SCADA sensor data allows taking appropriate actions before icing occurs. This paper presents a newly developed deep learning network model named PCTG (Parallel CNN-TCN GRU) for the purpose of high-accuracy and long-term prediction of icing on wind turbine blades. This model combines three networks, the CNN, TCN, and GRU, in order to incorporate both the temporal aspect of SCADA time-series data as well as the dependencies of SCADA variables. The experimentations conducted by using this model and SCADA data from three wind turbines in a wind farm have generated average prediction accuracies of about 97% for prediction horizons of up to 2 days ahead. The developed model is shown to maintain at least 95% prediction accuracy for long prediction horizons of up to 22 days ahead. Furthermore, for another wind farm SCADA dataset, it is shown that the developed PCTG model achieves over 99% icing prediction accuracy 10 days ahead. [ABSTRACT FROM AUTHOR]

Published

2024

26. Subsea Long-Duration Energy Storage for Integration with Offshore Wind Farms.

Author

Cutajar, Charise, Sant, Tonio, Aquilina, Luke, Buhagiar, Daniel, and Baldacchino, Daniel

Subjects

*ENERGY storage, *ENERGY density, *HEAT sinks, *OFFSHORE wind power plants, *HYDRAULIC turbines, *WIND power plants

Abstract

Long-duration energy storage systems are becoming a vital means for decarbonizing the global economy. However, with floating wind farms being commissioned farther offshore, the need to co-locate energy storage with the energy harnessing units is becoming more essential. This paper presents a transient thermal analysis of the charging process of a subsea open-cycle hydro-pneumatic energy storage system. The proposed system is designed for integration with floating wind turbines in deep water sites. Situating the system subsea presents unique opportunities for integration with offshore wind plants through the exploitation of well-known subsea pipeline technology and the surrounding seawater environment, which acts as a natural heat sink/source. The results obtained from numerical modeling in Python© Version 3.7.4 present the variation in various operating parameters with time. The outcomes reveal that the proposed system is able to achieve a work ratio and an energy storage capacity ratio of up to 0.80 and 0.95, respectively. Furthermore, the proposed open-cycle system is predicted to boost the energy storage density by a factor ranging between 2.00 and 8.10 when compared to the energy storage density of conventional closed-cycle units. Namely, the energy storage density of the long-duration energy storage can reach up to 16.20 kWh/m3 when operated in an open-cycle configuration. [ABSTRACT FROM AUTHOR]

Published

2024

27. Wind Turbine Static Errors Related to Yaw, Pitch or Anemometer Apparatus: Guidelines for the Diagnosis and Related Performance Assessment.

Author

Astolfi, Davide, Iuliano, Silvia, Vasile, Antony, Pasetti, Marco, Iacono, Salvatore Dello, and Vaccaro, Alfredo

Subjects

*WIND turbine efficiency, *ABSOLUTE pitch, *WIND turbines, *WIND power, *PRODUCTION losses, *WIND power plants, *OFFSHORE wind power plants

Abstract

The optimization of the efficiency of wind turbine systems is a fundamental task, from the perspective of a growing share of electricity produced from wind. Despite this, and given the complex multivariate dependence of the power of wind turbines on environmental conditions and working parameters, the literature is lacking studies specifically devoted to a careful characterization of wind farm performance. In particular, in the literature, it is overlooked that there are several types of faults which have similar manifestations and that can be defined as static errors. This kind of error manifests as a static bias occurring from a certain time onward, which can affect the anemometer, the absolute or relative pitch of the blades, or the yaw system. Static or systematic errors typically do not cause the functional failure of the wind turbine system, but they deserve attention due to the fact that they cause power production loss throughout the operation time. Based on this, the first objective of the present study is a critical review of the recent papers devoted to three types of wind turbine static errors: anemometer bias, static yaw error, and pitch misalignment. As a result, a comprehensive viewpoint, enhancing the state of the art in the literature, is developed in this study. Given that the use of data collected by Supervisory Control And Data Acquisition (SCADA) systems has, up to now, been prevailing for the diagnosis of systematic errors compared to the use of further specific sensors, particular attention in the present study is thus devoted to the discussion of the phenomena which can be observable through SCADA data analysis. Based on this, finally, a rigorous work flow is formulated for detecting static errors and discriminating among them through SCADA data analysis. Nevertheless, methods based on additional information sources (like further sensors or meteorological data) are also discussed. An important aspect of this study is that, for each considered type of systematic error, some previously unpublished results based on real-world SCADA data are reported in order to corroborate the proposed framework. Summarizing, then, the present is the first paper which considers and discusses several types of wind turbine static errors in a unified viewpoint, correctly interprets apparently controversial results collected in the literature, and finally provides guidelines for the diagnosis of this kind of error and for the quantification of the performance drop associated with their presence. [ABSTRACT FROM AUTHOR]

Published

2024

28. Prioritizing Research for Enhancing the Technology Readiness Level of Wind Turbine Blade Leading-Edge Erosion Solutions.

Author

Pryor, Sara C., Barthelmie, Rebecca J., Coburn, Jacob J., Zhou, Xin, Rodgers, Marianne, Norton, Heather, Campobasso, M. Sergio, López, Beatriz Méndez, Hasager, Charlotte Bay, and Mishnaevsky Jr., Leon

Subjects

*WIND turbine blades, *TECHNOLOGY assessment, *WIND turbines, *JUDGMENT (Psychology), *ENVIRONMENTAL monitoring, *OFFSHORE wind power plants

Abstract

An enhanced understanding of the mechanisms responsible for wind turbine blade leading-edge erosion (LEE) and advancing technology readiness level (TRL) solutions for monitoring its environmental drivers, reducing LEE, detecting LEE evolution, and mitigating its impact on power production are a high priority for all wind farm owners/operators and wind turbine manufacturers. Identifying and implementing solutions has the potential to continue historical trends toward lower Levelized Cost of Energy (LCoE) from wind turbines by reducing both energy yield losses and operations and maintenance costs associated with LEE. Here, we present results from the first Phenomena Identification and Ranking Tables (PIRT) assessment for wind turbine blade LEE. We document the LEE-relevant phenomena/processes that are deemed by this expert judgment assessment tool to be the highest priorities for research investment within four themes: atmospheric drivers, damage detection and quantification, material response, and aerodynamic implications. The highest priority issues, in terms of importance to LEE but where expert judgment indicates that there is a lack of fundamental knowledge, and/or implementation in measurement, and modeling is incomplete include the accurate quantification of hydrometeor size distribution (HSD) and phase, the translation of water impingement to material loss/stress, the representation of operating conditions within rain erosion testers, the quantification of damage and surface roughness progression through time, and the aerodynamic losses as a function of damage morphology. We discuss and summarize examples of research endeavors that are currently being undertaken and/or could be initiated to reduce uncertainty in the identified high-priority research areas and thus enhance the TRLs of solutions to mitigate/reduce LEE. [ABSTRACT FROM AUTHOR]

Published

2024

29. Technical and economic analysis of hydrogen production, storage and transportation by offshore wind power in different scenarios: A Guangdong case study.

Author

Zhang, Chao, Song, Pengfei, Hou, Jianguo, Xiao, Li, Wang, Xiukang, Yang, Fan, and Wang, Xiulin

Subjects

*HYDROGEN as fuel, *WIND power, *HYDROGEN production, *ELECTROCHEMICAL analysis, *UNDERWATER pipelines, *OFFSHORE wind power plants

Abstract

Hydrogen production from offshore wind power is one of the ways to solve the problem of consumption. Through the comparative analysis of electrolytic, hydrogen storage and transportation technology suitable for offshore wind, taking an offshore wind farm in eastern Guangdong province of China as an example, according to four cases of high-voltage AC transmission, onshore centralized hydrogen production, offshore centralized hydrogen production + submarine hydrogen pipeline transportation, offshore centralized hydrogen production + LOHC-FPSO + ship transportation, the economy of each case is analyzed under different offshore distances and different hydrogen prices, and it is concluded that the cost of offshore wind power is very sensitive to offshore distance. In that three hydrogen production cases, under the condition that the price of hydrogen is 25 CNY/kg, when the offshore distance exceeds about 180 km, it is difficult to make profits, and it is not suitable for hydrogen production. When the offshore distance is less than 80 km, offshore wind power has more advantages in producing hydrogen on land. When the offshore distance exceeds about 80 km, case 3 is lower. When the offshore distance exceeds about 150 km, case 2 and case 3 will be superior to the case 1. When the benchmark hydrogen price is 25 CNY/kg, the economy of each case is poor. • Development status and trend of offshore wind power in China. • Selection of electrolysis ,storage and transportation technologies suitable for offshore wind power to hydrogen. • Four scenarios and their hydrogen cost and competitiveness analysis. • Suggestions on developing offshore wind power to hydrogen in Guangdong. [ABSTRACT FROM AUTHOR]

Published

2024

30. The change of environmental factors in the water near the Yangtze Estuary may induce the change of large yellow croaker fishery location there.

Author

Cai, Lina, Li, Jiahua, Yan, Xiaojun, Tang, Rong, and Zhang, Xinkai

Subjects

LARIMICHTHYS, OFFSHORE wind power plants, OCEAN temperature, FISH spawning, SPATIOTEMPORAL processes

Abstract

The large yellow croaker, an endemic migratory species in China's coastal waters, holds considerable economic importance. It is very necessary and significant to study the spatio-temporal evolution of large yellow croaker fishery based on environmental factors. In this paper, the HY-1C/D Coastal Zone Imager was applied to reveal distributional details of suspended sediment concentration and chlorophyll-a concentration in large yellow croaker fishery. Furthermore, combined with multi-source data, the characteristics of other environmental parameters such as temperature, salinity, current, wind and fronts were analyzed to reveal the changing of large yellow croaker fishery location. The results show that: (1) The environmental factors of large yellow croaker fishery exhibit pronounced spatial and temporal characteristics. Generally, the temperature (9-28°C), salinity (20-34 ‰) and other water environmental factors of the fishing ground are conducive to the survival and growth of large yellow croaker. The formation and change of fishery are closely related to environmental factors in the water. (2) The change of environmental factors in the water may induce the change of large yellow croaker fishery location. Winter sea surface temperature has significantly risen over the past two decades (2004-2023). With the sea surface temperature rising by approximately 2°C west of 125°E, the overwintering ground has expanded westward, increasing by nearly 29%. In addition, the scale and number of offshore windmills increased by 836% and 456% respectively over the decade (2013-2023). In 2023, offshore wind farms cover an area of 145.47 km2 and have 200 windmills. Wind turbine piles resembling artificial reefs. It can not only promote the waters vertical exchange to enhance the nutrients in upper waters but also provide a protective base for fish spawning. Thus, effectively attracting fish species. The construction of offshore wind farms has extended spawning ground north-westward to the mouth of the Yangtze River Estuary, expanding by nearly 21%. This study improved the cognition level of resources, habitat environment and change trend of large yellow croaker. It also provided technical support for the construction and protection of the large yellow croaker fishery. [ABSTRACT FROM AUTHOR]

Published

2024

31. Optimal design and operation of a wind farm/battery energy storage considering demand side management.

Author

Tao, Siyu, Zhang, Chaohai, Feijóo‐Lorenzo, Andrés E., and Kim, Victor

Subjects

PARTICLE swarm optimization, LOAD management (Electric power), CLEAN energy, BATTERY management systems, WIND power, OFFSHORE wind power plants

Abstract

Balancing electricity demand and sustainable energy generation like wind energy presents challenges for the smart grid. To address this problem, the optimization of a wind farm (WF) along with the battery energy storage (BES) on the supply side, along with the demand side management (DSM) on the consumer side, should be considered during its planning and operation stages. An optimization framework with two levels to simultaneously decide the layout and operation of the WF/BES is put forward in this paper. The first‐level model consists of determining the WF/BES capacities, the WF configuration, and the connection buses. It is tackled by the mixed‐discrete particle swarm optimization algorithm. The multi‐objective optimization problem (MOOP) model in the second level determines the operation schedule of the WF/BES and other generators taking the DSM into consideration. The MOOP model in the second level is transformed to a single‐objective optimization problem via the maximum fuzzy satisfaction method, and is then solved by the genetic algorithm. The proposed model and the strategy are verified by the Barrow offshore WF test case, which is integrated into the IEEE‐118 system. Simulation results indicate that the wind and load patterns, the DSM and the BES price are the three key factors influencing the WF/BES design optimization. [ABSTRACT FROM AUTHOR]

Published

2024

32. Performance of a fine-scale acoustic positioning system for monitoring temperate fish behavior in relation to offshore marine developments.

Author

Shipley, Oliver N., Nicoll, Ashley, Cerrato, Robert M., Dunton, Keith J., Peterson, Bradley J., Sclafani, Matthew, Bangley, Charles, Balazik, Matthew T., Breece, Matthew, Cahill, Brianna V., Fox, Dewayne A., Gahagan, Benjamin I., Kneebone, Jeff, Leone, Farrah, Manz, Maria, Ogburn, Matthew, Post, William C., Scannell, Brittney, and Frisk, Michael G.

Subjects

*OFFSHORE wind power plants, *ACOUSTIC receivers, *BIOTIC communities, *SEA basses, *ENERGY development

Abstract

Rapid global expansion of offshore wind farms, tidal, and wave technologies signifies a new era of renewable energy development. While a promising means to combat the impacts of climate change, such developments necessitate fine-scale monitoring of biological communities to determine impacts associated with construction, operation, and eventual decommission. Here, we evaluate the performance of a gridded, Innovasea Systems, Inc. fine-scale acoustic telemetry positioning system (FSPS, n = 20 acoustic receivers) for tracking behaviors of diverse, temperate fish assemblages in relation to a subsea cable route supporting the Ørsted offshore wind development in coastal New York. We examined array performance through positioning error derived from receiver reference transmitters and tracked animals (n = 260) comprising 17 species of teleost and elasmobranch. We evaluated the effects of environmental variables (temperature, tilt, noise, and depth), transmitter power, individual movement rates, and receiver loss on horizontal positioning error (HPE) and route mean squared error (RMSE). Across a 16-month deployment period, many positions were derived for Atlantic sturgeon (n = 2,612), black sea bass (n = 9,175), clearnose skate (n = 10,306), summer flounder (n = 13,304), and little skate (n = 15,186), suggesting that these species may serve as sentinel candidates for assessing behavioral changes following construction, operation, and decommission. We found that receivers placed at the boundary of the grid exhibited higher HPE and RMSE, however these errors did not significantly change despite large receiver losses (25%). Generalized Linear Models revealed that temperature, noise, tilt, and depth were often significant predictors of HPE and RMSE, however, a substantial amount of variance was not explained by the models (~ 70%). Average movement rates ranged from 1.1 m s−1 (common thresher shark) to 0.03 m s−1 (little skate and summer flounder) but had minimal effects on positioning error. Finally, we observed that higher transmitter powers (158 dB) may lead to higher and more variable HPE values. Overall, these findings provide new insight into the drivers of FSPS array performance and illustrate their broad utility for monitoring fish behavior associated with offshore marine developments. [ABSTRACT FROM AUTHOR]

Published

2024

33. Multi‐dimensional evaluation and diagnostic methods for wind turbine power generation performance based on different influencing factors.

Author

Chen, Qi, Wang, Lin, Xie, Shuzong, Zhan, Yangyan, and Wang, Xin

Subjects

WIND turbines, WIND power, MANUFACTURING industries, DIAGNOSIS methods, EVALUATION methodology, OFFSHORE wind power plants, WIND power plants

Abstract

The power generation performance of wind turbines has consistently been a paramount concern for wind power operators, maintainers, and manufacturers, as it directly determines the profitability of wind farms. However, due to the combined influence of complex environmental conditions within wind farms and inherent deficiencies in wind turbine design, significant variations in power generation performance persist among turbines of the same model. This discrepancy can be attributed to two crucial factors: site conditions and operational efficiency. To achieve more precise and systematic diagnostic work on the power generation performance of wind turbines, this paper focuses on three factors: air density, turbulence intensity, and yaw adaptability. Based on this, three evaluation and diagnosis methods are proposed, including a conversion method for air density based on two‐dimensional interpolation, a turbulence correction method based on the zero‐turbulence curve, and a yaw adaptability diagnosis method based on the convergence degree. Finally, the effectiveness of these proposed methods is verified through the analysis of actual wind field data. [ABSTRACT FROM AUTHOR]

Published

2024

34. Prioritizing landscapes for mitigating the impacts of onshore wind farms on multidimensional waterbird diversity in the Yellow Sea.

Author

Zhao, Shanshan, Xu, Huan, Wang, Tianhou, Li, Hepeng, Li, Xiuzhen, Liu, Ningning, Song, Xiao, Guan, Feng, Chen, Xuechu, Xu, Aichun, and Li, Ben

Subjects

*CLEAN energy, *WIND power, *ANIMAL flight, *CLIMATE change, *ENERGY development, *WIND power plants, *OFFSHORE wind power plants

Abstract

Ongoing wind energy developments play a key role in mitigating the global effects of climate change and the energy crisis; however, they have complex ecological consequences for many flying animals. The Yellow Sea coast is considered as an ecological bottleneck for migratory waterbirds along the East Asian–Australasian flyway (EAAF), and is also an important wind farm base in China. However, the effects of large-scale onshore wind farms along the EAAF on multidimensional waterbird diversity, and how to mitigate these effects, remain unclear. Here we examined how wind farms and their surrounding landscapes affected multidimensional waterbird diversity along the Yellow Sea coast. Taxonomic, functional, and phylogenetic diversity of the waterbird assemblages, and mean pairwise distances and nearest taxon distances with null models were quantified in relation to 4 different wind turbine densities. We also measured 6 landscape variables. Multi-dimensional waterbird diversity (taxonomic, functional, and phylogenetic diversity) significantly decreased with increasing wind turbine density. Functional and phylogenetic structures tended to be clustered in waterbird communities, and environmental filtering drove waterbird community assemblages. Furthermore, waterbird diversity was regulated by a combination of wind turbine density and landscape variables, with edge density of aquaculture ponds, in addition to wind turbine density, having the greatest independent contribution to waterbird diversity. These results suggest that attempts to mitigate the impact of wind farms on waterbird diversity could involve the landscape transformation of wind farm regions, for example, by including high-edge-density aquaculture ponds (i.e. industrial ponds) around wind farms, instead of traditional low-edge-density aquaculture ponds. [ABSTRACT FROM AUTHOR]

Published

2024

35. Estimation of the conditional tail moment for Weibull‐type distributions.

Author

Goegebeur, Yuri, Guillou, Armelle, and Qin, Jing

Subjects

*WIND speed measurement, *HAZARD function (Statistics), *AIR pollution, *PARTICULATE matter, *EMPIRICAL research, *OFFSHORE wind power plants

Abstract

We consider the estimation of the conditional tail moment at extreme levels for the class of Weibull‐type distributions. A two‐step procedure is introduced where in the first stage one estimates the conditional tail moment at an intermediate level, followed by an extrapolation in the second stage. The asymptotic properties of the estimators introduced in the two stages are derived under suitable assumptions. The finite sample properties of the proposed estimator are examined with a simulation experiment. We conclude with two applications on real life data: wind speed measurements collected at an offshore wind farm and PM2.5 air pollution data. [ABSTRACT FROM AUTHOR]

Published

2024

36. Static and dynamic analysis of a new offshore wind turbine system supported with outriggers.

Author

El Gendy, Omar, Mohamedien, Mohamed A., and Sallam, Ezzaat

Subjects

*DYNAMIC loads, *DEAD loads (Mechanics), *SOIL-structure interaction, *WIND turbines, *MODAL analysis, *OFFSHORE wind power plants

Abstract

This article presents an innovative structural system for offshore wind turbines supported on monopiles. The novelty of this system lies in its enhancement of the lateral stiffness of the tubular tower through the incorporation of an outrigger system, widely employed in high-rise buildings. This novel system is modeled as a Timoshenko beam-column element under both static and dynamic loading scenarios, incorporating geometric nonlinearity and accounting for the effect of soil-structure interaction. A comprehensive numerical analysis was conducted to evaluate the system's behavior under various static and dynamic load cases, utilizing soil data from the Red Sea region of Egypt. A modal analysis is also incorporated to investigate the eigenmodes of the proposed system. This study offers valuable insights for designers and researchers, providing guidelines and diagrams for the implementation of the proposed system. [ABSTRACT FROM AUTHOR]

Published

2024

37. A numerical investigation of wake recovery for an H- and X-shaped vertical-axis wind turbine with wake control strategies.

Author

Giri Ajay, Adhyanth and Simao Ferreira, Carlos

Subjects

*ATMOSPHERIC boundary layer, *OFFSHORE wind power plants, *WIND power plants, *WIND turbines, *POWER density

Abstract

Vertical-axis wind turbines (VAWTs), particularly in offshore wind farms, are gaining attention for their capacity to potentially enhance wake recovery and increase the power density of wind farms. Previous research on VAWT wake control strategies have demonstrated that the pitch offset is favorable for VAWT wake recovery. In the present study, an investigation on the wake recovery and its mechanisms for an H-Rotor and a novel X-Rotor VAWTs with fixed blade pitch offsets is conducted through qualitative and quantitative methods. The actuator line method is utilized in this study. Results indicate that the two rotors produce distinct vortex systems that drive the wake recovery process—which is augmented with pitch offsets. Through quantitative studies, the contribution of wake recovery due to advection increases dramatically with pitch offsets in the near wake. With pitch offsets, the inline available power increases up to 2.3 times for the rotors when compared to when there is no pitch offset. The mean kinetic energy flux occurs mostly above and below the rotors as well as the windward side, suggesting the mechanism of power replenishment for these rotors with pitch offsets. These results encourage further research into the effectiveness of wake recovery in the wind-farm level with the ground and atmospheric boundary layer influences. [ABSTRACT FROM AUTHOR]

Published

2024

38. A comparison of h- and p-refinement to capture wind turbine wakes.

Author

Kessasra, Hatem, Cordero-Gracia, Marta, Gómez, Mariola, Valero, Eusebio, Rubio, Gonzalo, and Ferrer, Esteban

Subjects

*WIND turbines, *WIND power, *ENERGY development, *POLYNOMIALS, *WIND power plants, *OFFSHORE wind power plants

Abstract

This paper investigates a critical aspect of wind energy research—the development of wind turbine wake and its significant impact on wind farm efficiency. The study focuses on the exploration and comparison of two mesh refinement strategies, h- and p-refinement, in their ability to accurately compute the development of wind turbine wake. The h-refinement method refines the mesh by reducing the size of the elements, while the p-refinement method increases the polynomial degree of the elements, potentially reducing the error exponentially for smooth flows. A comprehensive comparison of these methods is presented that evaluates their effectiveness, computational efficiency, and suitability for various scenarios in wind energy. The findings of this research could potentially guide future studies and applications in wind turbine wake modeling, thus contributing to the optimization of wind farms using high-order h/p methods. This study fills a gap in the literature by thoroughly investigating the application of these methods in the context of wind turbine wake development. [ABSTRACT FROM AUTHOR]

Published

2024

39. 电网短路故障下风电场内跟-构网电源瞬时频率交互影响机理.

Author

张宇, 张琛, 鲍颜红, 吴峰, and 蔡旭

Subjects

ROTOR dynamics, ENERGY storage, REACTIVE power, CRITICAL currents, WIND turbines, OFFSHORE wind power plants, WIND power plants

Abstract

Copyright of Journal of Shanghai Jiao Tong University (1006-2467) is the property of Journal of Shanghai Jiao Tong University Editorial Office and its content may not be copied or emailed to multiple sites or posted to a listserv without the copyright holder's express written permission. However, users may print, download, or email articles for individual use. This abstract may be abridged. No warranty is given about the accuracy of the copy. Users should refer to the original published version of the material for the full abstract. (Copyright applies to all Abstracts.)

Published

2024

40. Sterowanie napięciem pracy kabli eksportowych morskich farm wiatrowych.

Author

KLUCZNIK, Jacek

Subjects

ENERGY dissipation, FARM mechanization, OFFSHORE wind power plants, WIND power, POWER transformers, WIND power plants, VOLTAGE

Abstract

Copyright of Przegląd Elektrotechniczny is the property of Przeglad Elektrotechniczny and its content may not be copied or emailed to multiple sites or posted to a listserv without the copyright holder's express written permission. However, users may print, download, or email articles for individual use. This abstract may be abridged. No warranty is given about the accuracy of the copy. Users should refer to the original published version of the material for the full abstract. (Copyright applies to all Abstracts.)

Published

2024

41. CARE to Compare: A Real-World Benchmark Dataset for Early Fault Detection in Wind Turbine Data.

Author

Gück, Christian, Roelofs, Cyriana M. A., and Faulstich, Stefan

Subjects

WIND turbines, FALSE alarms, TIME series analysis, DATA quality, ALGORITHMS, OFFSHORE wind power plants

Abstract

Early fault detection plays a crucial role in the field of predictive maintenance for wind turbines, yet the comparison of different algorithms poses a difficult task because domain-specific public datasets are scarce. Many comparisons of different approaches either use benchmarks composed of data from many different domains, inaccessible data, or one of the few publicly available datasets that lack detailed information about the faults. Moreover, many publications highlight a couple of case studies where fault detection was successful. With this paper, we publish a high quality dataset that contains data from 36 wind turbines across 3 different wind farms as well as the most detailed fault information of any public wind turbine dataset as far as we know. The new dataset contains 89 years worth of real-world operating data of wind turbines, distributed across 44 labeled time frames for anomalies that led up to faults, as well as 51 time series representing normal behavior. Additionally, the quality of training data is ensured by turbine-status-based labels for each data point. Furthermore, we propose a new scoring method, called CARE (Coverage, Accuracy, Reliability and Earliness), which takes advantage of the information depth that is present in the dataset to identify good early fault detection models for wind turbines. This score considers the anomaly detection performance, the ability to recognize normal behavior properly, and the capability to raise as few false alarms as possible while simultaneously detecting anomalies early. Dataset: https://doi.org/10.5281/zenodo.14006163 (accessed on 29 October 2024). Dataset License: CC BY-SA 4.0 International. [ABSTRACT FROM AUTHOR]

Published

2024

42. Multi-Criteria Optimization of Wind Turbines in an Offshore Wind Farm with Monopile Foundation Considering Structural Integrity and Energy Generation.

Author

Ali, Sajid, Park, Hongbae, and Lee, Daeyong

Subjects

MULTI-objective optimization, WIND power, WIND turbines, WIND speed, ENERGY consumption, OFFSHORE wind power plants

Abstract

Offshore wind energy plays a crucial role in achieving renewable energy targets, with OWFs facing unique environmental challenges that impact turbine performance and structural demands. This study develops an advanced optimization methodology to identify the most effective layout configurations for offshore wind farms (OWFs) with monopile foundations, focusing on enhancing structural integrity and energy generation efficiency. Using a multi-criteria optimization approach, the effects of wind turbine spacing, angular orientation, and height on energy yield and monopile loading were evaluated. Based on a seven-year dataset from the Ouido site in South Korea, where the mean wind speed is 6.95 m/s at a 150 m hub height, optimized configurations were determined. For average wind conditions, a turbine spacing of 250 m, a hub height of 148 m, and an orientation angle of 36.87° minimized wake losses and distributed structural loads effectively. Under rated wind speeds of 10.59 m/s, a spacing of 282 m, a hub height of 155 m, and an orientation angle of 45° further enhanced performance. These designs reduced wake interference by 25%, decreased monopile fatigue loads by 18%, and lowered the levelized cost of electricity (LCOE) by up to 15%. This study's findings provide a robust framework for optimizing OWFs to increase energy yield, improve operational efficiency, and ensure economic viability. [ABSTRACT FROM AUTHOR]

Published

2024

43. The Impact of Offshore Wind Farm Construction on Maritime Traffic Complexity: An Empirical Analysis of the Yangtze River Estuary.

Author

Liu, Jian, Yu, Wenbo, Sui, Zhongyi, and Zhou, Chunhui

Subjects

OFFSHORE wind power plants, RENEWABLE energy sources, TRAFFIC patterns, TANKERS, SITUATIONAL awareness

Abstract

The rapid growth of offshore wind farms (OWFs) as renewable energy sources has heightened concerns about maritime traffic safety and management in high-density traffic zones. These areas, characterized by complex interactions among diverse ship types and spatial constraints, require advanced situational awareness to prevent collisions and ensure efficient operations. Traditional maritime traffic systems often lack the granularity to assess the multifaceted risks around OWFs. Existing research has explored local traffic patterns and collision risks but lacks comprehensive frameworks for evaluating traffic complexity at both micro and macro levels. This study proposes a new complexity assessment model tailored to OWF areas, integrating micro-level ship interactions and macro-level traffic flow conditions to capture a holistic view of traffic dynamics. Using extensive historical AIS data from the Yangtze River Estuary, the model evaluates the impact of the proposed OWF on existing traffic complexity. The results demonstrate that OWFs increase navigational complexity, particularly in route congestion, course adjustments, and encounter rates between ships. Different ship types and sizes were also found to experience varying levels of impact, with larger ships and tankers facing greater challenges. By providing a quantitative framework for assessing traffic complexity, this research advances the field's ability to understand and manage the risks associated with OWFs. The findings offer actionable insights for maritime authorities and OWF operators, supporting more effective traffic management strategies that prioritize safety and operational efficiency in high-density maritime areas. [ABSTRACT FROM AUTHOR]

Published

2024

44. Offshore Wind Farm Generation Simulation and Capacity Value Evaluation Considering Resonance Zone Control.

Author

Li, Bo, Wang, Yuxue, Jiang, Jianjian, Yu, Yanghao, Cai, Xiao, and Zhang, Ning

Subjects

OFFSHORE wind power plants, WIND power plants, WIND turbines, RENEWABLE energy sources, RESONANCE

Abstract

Offshore wind is a promising renewable energy generation technology and is arousing great attention in regards to pursuing carbon neutrality targets. Accurately simulating offshore wind generation can help to better optimize its operation and planning. It is also a concern that mechanical resonance is a threat to the wind turbines' lifespan. In this paper, the time-series simulation of offshore wind generation with consideration of resonance zone (RZ) control is investigated. The output model for multiple wind farms with different spatial correlations is proposed. Additionally, the capacity value (CV) of the joint wind farms is also evaluated through a reliability-based model. The case study illustrates the offshore wind power output simulation and CV results under different farm correlation scenarios and RZ control strategies. It is shown that strong spatial correlation brings great synchronicity in wind farms' output and results in a lower CV. The RZ control in wind simulation is validated and proven to have a marginal impact on the total output when multiple wind farms are evaluated together. [ABSTRACT FROM AUTHOR]

Published

2024

45. Gradient Descent Algorithm with Greedy Repositioning Using Power Deficit Aggregation of Wakes to Accelerate the Offshore Wind Farm Layout Optimization Problem in Irregular Concession Areas.

Author

Gonzalez-Rodriguez, Angel Gaspar, Roldan-Fernandez, Juan Manuel, Serrano-Gonzalez, Javier, and Muñoz-Díez, José Vicente

Subjects

OFFSHORE wind power plants, OPTIMIZATION algorithms, WIND power, ELECTRIC potential, WIND power plants

Abstract

Wind farm layout optimization is essential to maximize the energy production of renewable energy systems. A new layout optimization method for offshore wind farms is proposed to minimize power deficits due to the wake effect without limitation on the number of turbines, the shape, or the extension of the concession area. The main engine of the algorithm is a gradient-descent method in which throughout the optimization process, new turbines are progressively and randomly included within the concession area and quickly expand outward, looking for areas with less perturbation, in turn, pushing the previous ones. When the optimization process ends, to avoid local maxima, it enters into a process of suppression of the set of locations that cause the greatest potential (power deficit). Then, a map of potential for the entire area is created, and a greedy algorithm places new turbines to complete the layout with the final number of turbines. The overall process is completed in 25 s. To drastically speed up the search process and the creation of the potential map, a simplification has been validated and added: for turbines affected by multiple wakes, the resulting power has been calculated by using a linear aggregation of power deficits, instead of the usual linear (or quadratic) aggregation of speed deficits. Owing to this type of aggregation, an analogy is established between power deficit and repulsive non-isotropic electrostatic potential energy, which allows using the properties of conservative fields. Thanks to this, the process is 20 times faster than any other layout optimization algorithm found in the revised literature. Irregular concession areas are easily treated using Stokes' theorem to detect outer points. [ABSTRACT FROM AUTHOR]

Published

2024

46. Utilization of Hydrogen Using Hydrogen Storage Alloys.

Author

Taniguchi, Hiroyuki, Tokuyama, Hideki, and Tsurui, Nobuhito

Subjects

OFFSHORE wind power plants, HEAT of reaction, MATERIALS testing, BODY centered cubic structure, WATER electrolysis

Abstract

The article discusses the utilization of hydrogen using hydrogen storage alloys in the context of renewable energy and global warming prevention. It highlights the development of applications such as a chemical compressor and a hydrogen transportation system using hydrogen storage alloys. The text emphasizes the importance of developing technologies for producing, storing, transporting, and using hydrogen to realize a hydrogen society, with a focus on applications in Japan and potential future commercialization of hydrogen storage alloy technology. [Extracted from the article]

Published

2024

47. Recent Advancements in Planning and Reliability Aspects of Large-Scale Deep Sea Offshore Wind Power Plants: A Review

Author

Pawan Kumar, Santanu Paul, Akshay Kumar Saha, and Omkar Yadav

Subjects

Planning, reliability, offshore wind power plants, HVDC, economic aspects, sustainability, Electrical engineering. Electronics. Nuclear engineering, TK1-9971

Abstract

The transition towards renewable energy sources has propelled the rapid expansion of offshore wind power, with large-scale deep offshore wind power plants (OWPPs) emerging as a promising solution to meet escalating energy demands while mitigating climate change. This comprehensive review delves into recent advancements in the planning and reliability aspects of large-scale deep offshore wind power plants, crucial determinants of project success, economic viability, and long-term sustainability. The review synthesizes current research findings, technological innovations, and industry practices, and the evaluation elucidates state-of-the-art methodologies, tools, and strategies employed in developing and operating these offshore renewable energy assets. Key focus areas include site selection and resource assessment, technological innovations in turbine design and foundation systems, risk assessment and mitigation strategies, grid integration, and socio-economic and environmental considerations. The review identifies emerging trends, future research directions, and policy implications by critically analyzing these dimensions, offering valuable insights for researchers, practitioners, policymakers, and investors engaged in global sustainable offshore wind energy deployment.

Published

2025

48. Analysis of dynamic response of offshore wind turbines subjected to ship impacts and the corresponding protection measures: a review.

Author

Ma, Lu, Ding, Jieyi, Zhang, Xianfeng, Wang, Wubin, Zhao, Xiong, Sun, Chongbo, and Yang, Yang

Subjects

OFFSHORE wind power plants, WIND turbines, COLLISIONS at sea, WIND power, GROWTH industries

Abstract

Offshore wind energy is characterized by its clean and renewable nature, leading to rapid growth in the industry. However, the incidence of ship collisions with offshore wind turbines has also risen with the increasing number of offshore wind farms, particularly in commercial shipping lanes. To gain a thorough understanding of dynamic response between wind turbines and vessels, this paper extensively reviews studies related to wind turbine–ship collisions over the past 2 decades to cover four key aspects: (i) the fundamental requirements and background of collision analysis study, (ii) the analysis of dynamic response and collision characteristics of the fixed-bottom and floating offshore wind turbines (OWTs) subjected to ship collision forces, (iii) the influence of key collision factors that include impact positions, initial ship kinetic energy, and soil–structure interaction on the structural response for the wind turbines, and (iv) a discussion of protection measures to mitigate the collision damage to the substructure. The limitations in the existing studies are discussed, and future research directions are suggested. [ABSTRACT FROM AUTHOR]

Published

2024

49. Endangered Black‐faced Spoonbills alter migration across the Yellow Sea due to offshore wind farms.

Author

Lai, Yi‐Chien, Choi, Chi‐Yeung, Lee, Kisup, Kwon, In‐Ki, Lin, Chia‐Hsiang, Gibson, Luke, and Chen, Wei‐Yea

Subjects

*WIND power, *OFFSHORE wind power plants, *MIGRATION flyways, *EARTH system science, *BIRD migration, *SANDPIPERS, *WATER birds

Abstract

The article discusses how endangered Black-faced Spoonbills alter their migration patterns across the Yellow Sea due to the presence of offshore wind farms. The study highlights two cases of GPS-tracked Spoonbills changing their routes after encountering wind farms, leading to delays and altered behaviors. The research emphasizes the potential impact of offshore wind farms on migratory bird species and calls for further studies to assess cumulative effects and behavioral responses. [Extracted from the article]

Published

2024

50. Self‐paced learning long short‐term memory based on intelligent optimization for robust wind power prediction.

Author

Yang, Shun, Deng, Xiaofei, and Song, Dongran

Subjects

*OFFSHORE wind power plants, *WIND forecasting, *ROBUST optimization, *WIND turbines, *TIME series analysis, *WIND power

Abstract

Given the unpredictable and intermittent nature of wind energy, precise forecasting of wind power is crucial for ensuring the safe and stable operation of power systems. To reduce the influence of noise data on the robustness of wind power prediction, a wind power prediction method is proposed that leverages an enhanced multi‐objective sand cat swarm algorithm (MO‐SCSO) and a self‐paced long short‐term memory network (spLSTM). First, the actual wind power data is processed into time series as input and output. Then, the progressive advantage of self‐paced learning is used to effectively solve the instability caused by noisy data during long short‐term memory network (LSTM) training. Following this, the improved MO‐SCSO is employed to iteratively optimize the hyperparameters of spLSTM. Ultimately, a combined MO‐SCSO‐spLSTM model is constructed for wind power prediction. This model is validated with the data of onshore wind farms in Austria and offshore wind farms in Denmark. The experimental results show that compared with the traditional LSTM prediction method, the proposed method has better prediction accuracy and robustness. Specifically, in the onshore and offshore wind power prediction experiments, the proposed method reduces the minimum MAE by 5.44% and 4.96%, respectively, and reduces the MAE range by 4.45% and 17.21%, respectively, which could be conducive to the safe and stable operation of power system. [ABSTRACT FROM AUTHOR]

Published

2024