Onshore wind farms GIS-Assisted suitability analysis using PROMETHEE II

The Offshore Wind sector is a major, dynamic, and rapidly evolving renewable energy industry. This is particularly so in Europe, and especially in the UK. Associated with the growth of the industry has been a growth of interest in community benefits as voluntary measures provided by a developer to the host community. However, in many cases, and for some of the large North Sea distant offshore wind farms, the benefits packages have been disparate and pro rata much smaller than for the well-established onshore wind farm industry. However, there are signs of change. This paper explores the issues of community benefits for the UK offshore sector and evolving practice, as reflected in a macro study of the adoption of community benefits approaches across the industry. This is followed by a more in-depth micro- approach, which explores approaches that have been adopted in three case studies of recent OWF projects — Aberdeen, Beatrice and the Hornsea Array. Whilst there is still much divergence in practice, there are also examples of some convergence, and the development of a more replicable practice. Particularly notable is the adoption of annual community benefits funds, as the key element of community benefits schemes/agreements between developers, local authorities and local communities.

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Field experiment for open-loop yaw-based wake steering at a commercial onshore wind farm in Italy

10.5194/wes-2020-80 ◽

2020 ◽

Author(s):

Bart M. Doekemeijer ◽

Stefan Kern ◽

Sivateja Maturu ◽

Stoyan Kanev ◽

Bastian Salbert ◽

...

Keyword(s):

Field Experiment ◽

Wind Farm ◽

Wind Farms ◽

Power Production ◽

Field Trials ◽

Open Loop ◽

Onshore Wind ◽

Power Maximization ◽

Energy Gains ◽

Turbine Arrays

Abstract. The concept of wake steering in wind farms for power maximization has gained significant popularity over the last decade. Recent field trials described in the literature demonstrate the real potential of wake steering on commercial wind farms, but also show that wake steering does not yet consistently lead to an increase in energy production for all inflow conditions. Moreover, a recent survey among experts shows that validation of the concept remains the largest barrier for adoption currently. In response, this article presents the results of a field experiment investigating wake steering in three-turbine arrays at an onshore wind farm in Italy. This experiment was performed as part of the European CL-Windcon project. The measurements show increases in power production of up to 35 % for two-turbine interactions and up to 16 % for three-turbine interactions. However, losses in power production are seen for various regions of wind directions too. In addition to the gains achieved through wake steering at downstream turbines, more interesting to note is that a significant share in gains are from the upstream turbines, showing an increased power production of the yawed turbine itself compared to baseline operation for some wind directions. Furthermore, the surrogate model, while capturing the general trends of wake interaction, lacks the details necessary to accurately represent the measurements. This article supports the notion that further research is necessary, notably on the topics of wind farm modeling and experiment design, before wake steering will lead to consistent energy gains in commercial wind farms.

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The analysis of turbulence intensity based on wind speed data in onshore wind farms

Renewable Energy ◽

10.1016/j.renene.2018.02.080 ◽

2018 ◽

Vol 123 ◽

pp. 756-766 ◽

Cited By ~ 10

Author(s):

Guorui Ren ◽

Jinfu Liu ◽

Jie Wan ◽

Fei Li ◽

Yufeng Guo ◽

...

Keyword(s):

Wind Speed ◽

Turbulence Intensity ◽

Wind Farms ◽

Onshore Wind ◽

Wind Speed Data

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Overview of Wind Turbine Field Failure Databases: A Discussion of the Requirements for an Analysis

Volume 1: Fuels, Combustion, and Material Handling; Combustion Turbines Combined Cycles; Boilers and Heat Recovery Steam Generators; Virtual Plant and Cyber-Physical Systems; Plant Development and Construction; Renewable Energy Systems ◽

10.1115/power2018-7311 ◽

2018 ◽

Cited By ~ 1

Author(s):

Roozbeh Bakhshi ◽

Peter Sandborn

Keyword(s):

Statistical Analysis ◽

Wind Turbine ◽

Wind Turbines ◽

Wind Farms ◽

Onshore Wind ◽

Failure Times ◽

Reliability Parameters ◽

Failure Data ◽

Offshore Installations ◽

Field Failure

With renewable energy and wind energy in particular becoming mainstream means of energy production, the reliability aspect of wind turbines and their sub-assemblies has become a topic of interest for owners and manufacturers of wind turbines. Operation and Maintenance (O&M) costs account for more than 25% of total costs of onshore wind projects and these costs are even higher for offshore installations. Effective management of O&M costs depends on accurate failure prediction for turbine sub-assemblies. There are numerous models that predict failure times and O&M costs of wind farms. All these models have inputs in the form of reliability parameters. These parameters are usually generated by researchers using field failure data. There are several databases that report the failure data of operating wind turbines and researches use these failure data to generate the reliability parameters through various methods of statistical analysis. However, in order to perform the statistical analysis or use the results of the analysis, one must understand the underlying assumptions of the database along with information about the wind turbine population in the database such as their power rating, age, etc. In this work, we analyze the relevant assumptions and discuss what information is required from a database in order to improve the statistical analysis on wind turbines’ failure data.

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Improving an Accuracy of ANN-Based Mesoscale-Microscale Coupling Model by Data Categorization: With Application to Wind Forecast for Offshore and Complex Terrain Onshore Wind Farms

Data Analytics for Renewable Energy Integration - Lecture Notes in Computer Science ◽

10.1007/978-3-319-13290-7_5 ◽

2014 ◽

pp. 61-66 ◽

Cited By ~ 1

Author(s):

Alla Sapronova ◽

Catherine Meissner ◽

Matteo Mana

Keyword(s):

Complex Terrain ◽

Wind Farms ◽

Coupling Model ◽

Onshore Wind

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Impact of key factors on expected development of onshore wind energy sector in Poland and development scenarios

E3S Web of Conferences ◽

10.1051/e3sconf/20187001017 ◽

2018 ◽

Vol 70 ◽

pp. 01017 ◽

Cited By ~ 1

Author(s):

Izabela Wielewska ◽

Karol Tucki ◽

Anna Bączyk ◽

Magda Trzaska

Keyword(s):

Wind Energy ◽

Wind Power ◽

National Level ◽

Wind Farms ◽

Power Market ◽

Energy Sector ◽

Key Factors ◽

Onshore Wind ◽

Development Scenarios ◽

Current State

The aim of the paper was to analyse the wind power market in Poland by reviewing the factors that shape and influence its current state and the possible development prospects. The paper was focused on legislative, environmental, manufacturing, sociocultural and economic factors. Barriers to the development of onshore wind power market and the expected development of wind energy in Poland in the years 2017-2020 were identified and measured based on a survey. The review of individual factors and the study performed present that legislative barriers and the introduction of the ‘distance act’ are factors with the biggest influence on the current stagnation of onshore wind energy sector. A review of the recommendations concerning the distance (from protected areas and housing) required to build wind farms set forth in literature shows that Poland is the only country with such harsh restrictions. With its good environmental conditions and technical capacities, Poland can become a European leader in the production of energy from wind. The only barrier is the legislative environment and political instability on the national level. Without improvements in this sector, there is no chance for new wind projects, as these factors are crucial for development of this type of energy.

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