Offshore Wind Farms

María Dolores Esteban; José-Santos López-Gutiérrez; Vicente Negro

doi:10.3390/jmse8020120

Exploitation of the far-offshore wind energy resource by fleets of energy ships – Part 2: Updated ship design and cost of energy estimate

10.5194/wes-2021-39 ◽

2021 ◽

Author(s):

Aurélien Babarit ◽

Félix Gorintin ◽

Pierrick de Belizal ◽

Antoine Neau ◽

Giovanni Bordogna ◽

...

Keyword(s):

Wind Energy ◽

Energy Resource ◽

Wind Farms ◽

Energy Performance ◽

Ship Design ◽

Offshore Wind ◽

Offshore Wind Energy ◽

Ocean Engineering ◽

Offshore Wind Farms

Abstract. This paper deals with a new concept for the conversion of far-offshore wind energy into sustainable fuel. It relies on autonomous sailing energy ships and manned support tankers. Energy ships are wind-propelled ships that generate electricity using water turbines attached underneath their hull. Since energy ships are not grid-connected, they include onboard power-to-X plants for storage of the produced energy. In the present work, the energy vector X is methanol. In the first part of this study (Babarit et al., 2020), an energy ship design has been proposed and its energy performance has been assessed. In this second part, the aim is to estimate the energy and economic performance of such system. In collaboration with ocean engineering, marine renewable energy and wind-assisted propulsion’s experts, the energy ship design of the first part has been revised and updated. Based on this new design, a complete FARWIND energy system is proposed, and its costs (CAPEX and OPEX) are estimated. Results of the models show (i) that this FARWIND system could produce approximately 70,000 tonnes of methanol per annum (approximately 400 GWh per annum of chemical energy) at a cost in the range 1.2 to 3.6 €/kg, (ii) that this cost may be comparable to that of methanol produced by offshore wind farms in the long term, and (iii) that FARWIND-produced methanol (and offshore wind farms-produced methanol) could compete with gasoline on the EU transportation fuel market in the long term.

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Offshore Wind Energy: Good Practice in Impact Assessment, Mitigation and Compensation

Journal of Environmental Assessment Policy and Management ◽

10.1142/s1464333217500053 ◽

2017 ◽

Vol 19 (01) ◽

pp. 1750005 ◽

Cited By ~ 2

Author(s):

Jens Lüdeke

Keyword(s):

Wind Energy ◽

Impact Assessment ◽

Good Practice ◽

Bird Species ◽

Wind Farms ◽

Offshore Wind ◽

Mitigation Measures ◽

Published Data ◽

Offshore Wind Energy ◽

Offshore Wind Farms

Aiming towards good practice in the planning and approval of offshore wind farms suggestions are provided for the amendment of environmental impact assessment (EIA), an effective marine spatial planning and the establishment of marine compensation measure. The investigation is focused on the situation in Germany as a frontrunner in ecological research on offshore wind energy. After 10 years of research in Germany, it is timely to offer a synopsis of the results especially regarding the successful investigations of mitigation measures. The results are based on published data collected in Germany over the last 10 years, as well as international research. The outcomes of the research were validated by interviewing experts using the Delphi method. Key findings for good practice in impact assessment, mitigation and compensation: 1. EIAs should focus on decision-relevant subjects of protection (i.e. specific bird species and harbour porpoises). 2. There is a strong necessity for thresholds for the approval process. 3. Exclusion of OWFs in hotspots of sensitive species. 4. Application of state-of-the-art mitigation measures particularly against underwater noise to avoid damages of the hearing of porpoises. 5. The introduction of marine compensation measures is strongly suggested.

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Exploitation of the far-offshore wind energy resource by fleets of energy ships – Part 2: Updated ship design and cost of energy estimate

Wind Energy Science ◽

10.5194/wes-6-1191-2021 ◽

2021 ◽

Vol 6 (5) ◽

pp. 1191-1204

Author(s):

Aurélien Babarit ◽

Félix Gorintin ◽

Pierrick de Belizal ◽

Antoine Neau ◽

Giovanni Bordogna ◽

...

Keyword(s):

Wind Energy ◽

Energy Resource ◽

Wind Farms ◽

Energy Performance ◽

Ship Design ◽

Offshore Wind ◽

Offshore Wind Energy ◽

Ocean Engineering ◽

Offshore Wind Farms

Abstract. This paper deals with a new concept for the conversion of far-offshore wind energy into sustainable fuel. It relies on autonomous sailing energy ships and manned support tankers. Energy ships are wind-propelled ships that generate electricity using water turbines attached underneath their hull. Since energy ships are not grid-connected, they include onboard power-to-X plants for storage of the produced energy. In the present work, the energy vector X is methanol. In the first part of this study, an energy ship design was proposed, and its energy performance was assessed. In this second part, the aim is to update the energy and economic performance of such a system based on design progression. In collaboration with ocean engineering, marine renewable energy and wind-assisted propulsion experts, the energy ship design of the first part has been revised. Based on this new design, a complete FARWIND energy system is proposed, and its costs (CAPEX and OPEX) are estimated. Results of the models show (i) that this FARWIND system could produce approximately 70 000 t of methanol per annum (approximately 400 GWh per annum of chemical energy) at a cost in the range EUR 1.2 to 3.6/kg, (ii) that this cost may be comparable to that of methanol produced by offshore wind farms in the long term and (iii) that FARWIND-produced methanol (and methanol produced by offshore wind farms) could compete with gasoline on the EU transportation fuel market in the long term.

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Taiwan’s Offshore Wind Energy Policy: From Policy Dilemma to Sustainable Development

Sustainability ◽

10.3390/su131810465 ◽

2021 ◽

Vol 13 (18) ◽

pp. 10465

Author(s):

Huey-Shian Chung

Keyword(s):

Sustainable Development ◽

Wind Energy ◽

Energy Policy ◽

Wind Farm ◽

Wind Farms ◽

Relevant Information ◽

Offshore Wind ◽

Offshore Wind Energy ◽

Offshore Wind Farms ◽

Wind Energy Policy

Taiwan’s offshore wind energy policy (OWE policy) is a response to sustainable development goals. Offshore wind energy has become one of the fastest growing renewable energies on Taiwan’s coastline, with the government’s full support for the promotion and implementation of the OWE policy. With the operation of Taiwan’s first wind farm in 2021, increasing controversies are specifically concerned with the distribution of social, economic, and environmental burdens and benefits resulting from the OWE policy. More offshore wind farms are forthcoming by 2025. However, little attention has been paid to policy dilemmas for many aspects relevant to sustainable development. Therefore, this paper conducts a policy analysis to construct policy-relevant information of the OWE policy and identifies policy dilemmas in relation to concerns about sustainable development. This paper presents policy recommendations on the design and decision-making processes for facilitating the smooth promotion and implementation of Taiwan’s OWE policy and future renewable energy policies.

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Operations and maintenance issues in the offshore wind energy sector

International Journal of Energy Sector Management ◽

10.1108/ijesm-04-2015-0012 ◽

2016 ◽

Vol 10 (2) ◽

pp. 245-265 ◽

Cited By ~ 6

Author(s):

Victoria Baagøe-Engels ◽

Jan Stentoft

Keyword(s):

Wind Energy ◽

Delphi Study ◽

Wind Farms ◽

Energy Sector ◽

Offshore Wind ◽

Future Research ◽

Offshore Wind Energy ◽

Offshore Wind Farms ◽

Content Type ◽

Operations And Maintenance

Purpose There is increasing research interest in the expansion of the offshore wind energy sector. Recent research shows that operations and maintenance (O&M) account for around 20-35 per cent of the total energy costs in this sector. The purpose of this paper is to provide an overview of O&M issues in the offshore wind energy sector to propose initiatives that can help reduce the cost of energy used by offshore wind farms. Design/methodology/approach The paper is based on an in-depth literature review and a Delphi study of a panel of 16 experts on O&M. Findings Consisting primarily of conceptual papers and/or modelling papers, the extant literature identifies several challenges for O&M in the offshore wind energy sector. These challenges can be grouped into four categories: issues related with industry immatureness; distance/water depth; weather window; and policy issues. The Delphi study identified three other major issues that lead to increased O&M costs: too many predefined rules that limit development; lack of coordinated planning of the different services offered at the wind farms; and lack of a common approach on how O&M should be managed strategically. Research limitations/implications The present study is based only on Danish respondents. Future research needs to include various respondents from different countries to identify country-specific contingencies. Practical implications The paper provides an overview of the O&M issues in the offshore wind energy sector to prioritize where future resources should be invested and, thus, reduce O&M costs. Originality/value This is the first paper on O&M issues that bridges both literature studies and industry expert opinions.

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Getting Your Feet Wet: New Risks and Rewards in Offshore Wind Energy

Volume 5: Ocean Space Utilization; Polar and Arctic Sciences and Technology; The Robert Dean Symposium on Coastal and Ocean Engineering; Special Symposium on Offshore Renewable Energy ◽

10.1115/omae2007-29198 ◽

2007 ◽

Author(s):

Josef Kryger Tadich ◽

Tove Feld

Keyword(s):

Wind Energy ◽

Wind Farms ◽

Offshore Wind ◽

Offshore Wind Turbine ◽

Offshore Wind Energy ◽

Risk Environment ◽

Offshore Wind Farms ◽

Recent Developments ◽

Regulatory Bodies ◽

Areas Of Interest

The move of wind energy offshore involves unique technical considerations during the project’s development. With multiple key stakeholders such as: designers, manufacturers, developers, investors and regulatory bodies, each inevitably focusing on their own areas of interest during project development. This paper will focus on some of the differences between onshore and offshore wind energy technology, the new risk environment in which they operate, and how project certification can provide a useful tool for boosting stakeholder confidence during development while insuring cross-disciplinary integrity for the project as a whole. The European offshore wind energy market will be outlined, highlighting the major project developments in Northern Europe, and the associated market forces that have driven this development. Focusing on the technology itself, some of the driving technical issues for offshore wind energy today and for the foreseeable future will be discussed. An overview of recent developments in the large wind turbines used in offshore projects themselves, such as increases in rotor diameters and rated powers is presented, leading to a discussion on some of the key component developments facilitating this. An introduction to energy production will be given that focuses on offshore wind farms, and this will be tied in with a discussion on various foundation concepts for offshore wind turbine support structures. Encompassing it all, the role of project certification is discussed in its key phases being: design basis, design, and manufacturing, installation, commissioning, in-service, and decommissioning. This overview will be provided with reference to practical industry experience and the various existing DNV rules currently in publication.

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Evaluating the essential barrier to off-shore wind energy – an Indian perspective

International Journal of Energy Sector Management ◽

10.1108/ijesm-04-2015-0010 ◽

2016 ◽

Vol 10 (2) ◽

pp. 266-282 ◽

Cited By ~ 7

Author(s):

Kannan Govindan ◽

Madan Shankar

Keyword(s):

Wind Energy ◽

Wind Power ◽

Wind Farms ◽

Offshore Wind ◽

Offshore Wind Energy ◽

Offshore Wind Farms ◽

Content Type ◽

Offshore Wind Power ◽

Indian Context ◽

Common Barriers

Purpose The purpose of this paper is to evaluate the essential barrier and reveal the priority among common barriers to offshore wind energy in an Indian context with the assistance of the proposed framework. Design/methodology/approach Based on the proposed framework, a five-phase methodology was adapted to explore the essential barrier step by step. The common barriers, which were collected from the existing literatures through a systematic review, were further validated by field experts. The collected common barriers were evaluated with the assistance of the case industry’s field professionals through an analytical hierarchy process, a multi-criteria decision-making tool, to evaluate the barriers to Indian offshore wind energy. Findings Among the 12 common barriers to offshore wind energy, it is clear that “high capital cost” is the most essential barrier involved in the implementation of offshore wind energy farms in the Indian context. Practical implications This study reveals the importance of offshore wind power as a long-term profitable strategy to the case company within the Indian context. By addressing the essential barriers to the implementation of offshore wind farms, the Indian offshore wind system managers can train their employees to counteract the hindrances through the benchmarking of pioneering global offshore wind power developers such as Denmark and the UK. Further, this study provides useful suggestions to the Indian Government regarding policies for offshore wind energy; it also clearly projects the current status of the Indian offshore wind farm implementation. Originality/value This study assists Indian key stakeholders of offshore wind energy by indicating the essential barrier in an Indian context; they can remove the particular barrier instead of focusing on others that previous studies have identified. Further, this study brings out the importance of offshore wind power in an Indian context, which can urge stakeholders to invest more in offshore wind farms.

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Perspectives on offshore wind farms development in chosen countries of European Union

Journal of Water and Land Development ◽

10.2478/jwld-2018-0039 ◽

2018 ◽

Vol 38 (1) ◽

pp. 27-34

Author(s):

Leszek Dawid

Keyword(s):

European Union ◽

Wind Energy ◽

Energy Production ◽

Wind Farm ◽

Wind Farms ◽

Offshore Wind ◽

Offshore Wind Energy ◽

The European Union ◽

Offshore Wind Farms ◽

Under Construction

AbstractAt the end of 2016 there were 84 wind farms under construction in 11 European countries. Investments in this sector are enormous. The average cost of a wind farm construction amounts to approx. 4 mln EUR per 1 MW of installed power. Offshore wind energy production also plays a significant role in the process of ensuring energy security in Europe, and in reduction of greenhouse gases. The objective of this paper is to present prospects of offshore wind energy farms development in the leading member states of the European Union as regards this problem. In this paper offshore wind farms in Germany and Denmark have been studied. In the paper the power of wind farms, the support systems as well as criteria related to location of wind farm offshore have been analysed. German and Danish sectors of offshore wind energy are strongly supported by respective governments. Both countries aim at yearly increase of wind energy share in total energy production. The research has been conducted based on the analysis of acts, regulations, the subject’s literature and information from websites.

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Offshore Wind Energy Resource Assessment across the Territory of Oman: A Spatial-Temporal Data Analysis

Sustainability ◽

10.3390/su13052862 ◽

2021 ◽

Vol 13 (5) ◽

pp. 2862

Author(s):

Amer Al-Hinai ◽

Yassine Charabi ◽

Seyed H. Aghay Kaboli

Keyword(s):

Data Analysis ◽

Wind Energy ◽

Wind Turbines ◽

Energy Resource ◽

Wind Farms ◽

Offshore Wind ◽

Wind Data ◽

Offshore Wind Energy ◽

Offshore Wind Turbines ◽

Wind Potential

Despite the long shoreline of Oman, the wind energy industry is still confined to onshore due to the lack of knowledge about offshore wind potential. A spatial-temporal wind data analysis is performed in this research to find the locations in Oman’s territorial seas with the highest potential for offshore wind energy. Thus, wind data are statistically analyzed for assessing wind characteristics. Statistical analysis of wind data include the wind power density, and Weibull scale and shape factors. In addition, there is an estimation of the possible energy production and capacity factor by three commercial offshore wind turbines suitable for 80 up to a 110 m hub height. The findings show that offshore wind turbines can produce at least 1.34 times more energy than land-based and nearshore wind turbines. Additionally, offshore wind turbines generate more power in the Omani peak electricity demand during the summer. Thus, offshore wind turbines have great advantages over land-based wind turbines in Oman. Overall, this work provides guidance on the deployment and production of offshore wind energy in Oman. A thorough study using bankable wind data along with various logistical considerations would still be required to turn offshore wind potential into real wind farms in Oman.

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Main Trends and Criteria Adopted in Economic Feasibility Studies of Offshore Wind Energy: A Systematic Literature Review

Energies ◽

10.3390/en15010012 ◽

2021 ◽

Vol 15 (1) ◽

pp. 12

Author(s):

Arthur Leandro Guerra Pires ◽

Paulo Rotella Junior ◽

Sandra Naomi Morioka ◽

Luiz Célio Souza Rocha ◽

Ivan Bolis

Keyword(s):

Power Generation ◽

Literature Review ◽

Wind Energy ◽

Systematic Literature Review ◽

Net Present Value ◽

Wind Farms ◽

Feasibility Studies ◽

Economic Feasibility ◽

Offshore Wind ◽

Offshore Wind Energy

Offshore wind energy has been identified as one of the most promising and increasingly attractive sources of energy. This technology offers a long-term power-generation source, less environmental impact, and fewer physical restrictions. However, given the complexity of this technology, economic feasibility studies are essential. Thus, this study aims to identify the main trends and criteria or the methods used in the economic feasibility studies of offshore wind energy, providing a review of the state of the art in this literature. For this, a Systematic Literature Review was carried out. The article shows the growing interest in offshore wind power generation and highlights how recently the interest in the studies that assess the technical–economic feasibility of this source has grown; it presents the main milestones of the topic. Based on a structured literature review, this article identifies the main trends in this topic: (i) wind farms, (ii) risk, (iii) floating offshore wind farms, (iv) decommissioning and repowering, (v) net present value, (vi) life cycle cost, and (vii) multi-criteria decision-making; it provides a broad view of the methodological possibilities and specificities for investors and researchers interested in conducting studies on the economic feasibility of offshore wind generation. In addition, finally, a research agenda is proposed.

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