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Global Offshore Wind Farm Database And Intelligence

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Offshore wind power is a fast-growing solution to the global need for clean, renewable energy. There are currently 68,848 MW operational around the world, in Europe, Asia-Pacific, and the Americas.

Wind farm technology is rapidly advancing, with increasing attention paid to floating offshore wind farms positioned in deep waters, further away from the shore than traditional fixed-bottom wind farms. In addition, turbines are getting bigger, with models up to 15 MW commercially available and potential 20+ MW machines included in some project designs.

The ForeSEE software is a comprehensive suite of reports, databases and online tools for the offshore wind sector and adjacent industries. ForeSEE allows us to create our sector-specific subscriptions to help people gather intelligence to inform decisions, for example, our offshore wind farm database subscription. Sector subscriptions are fuelled by wide-reaching data and insights to help organisations make informed decisions.

Subscriptions include:

  • Sector-specific on- and offline databases
  • Reports
  • Newsletters
  • Online Tools

This enables:

  • Competitor analysis
  • Industry analysis
  • Offshore wind project pipeline opportunity discovery
  • Resource assessment

  • A definitive list of all offshore wind farm projects - installed and in the pipeline
  • Key companies and their role: thousands of stakeholders defined, from developers to installers
  • Planning and installation timelines
  • 4CO proprietary models, indicating the likelihood of projects proceeding.

ForeSEE marine intelligence software provides you with exclusive access to a range of specialised services including the Global Offshore Wind Farm Database. ForeSEE grants you exclusive access to online and offline databases, reports, newsletters, online tools and more.

Global Offshore Wind Farm Market

The global offshore wind farm market is growing rapidly. In 2020, the global installed capacity of offshore wind farms reached 29,066 megawatts, up from just 1,471 megawatts in 2010. The United Kingdom is currently the largest market for offshore wind, followed by China, Germany and Denmark.

Leading offshore wind farm companies include Orsted, Equinor, Vattenfall and EDP Renewables. As the global demand for renewable energy continues to grow, the offshore wind farm market is expected to expand significantly in the coming years.

Types of Offshore Wind Farms

There are three main types of offshore wind farms:

  • Fixed-Bottom wind farms
    • The most common type consists of wind turbines anchored to the seabed using steel or concrete foundations.
  • Floating wind farms
    • Wind turbines mounted on floating platforms anchored to the seabed using cables or chains, which can move with the waves to maintain stability.
  • Floating wind farms
    • Combination of fixed-bottom and floating wind turbines to take advantage of the benefits of both technologies.
Three offshore wind turbines in an array

Environmental Impact of Offshore Wind Farms

Two workers stood atop a wind turbine on its engine

Offshore wind farms have both positive and negative environmental impacts. On the positive side, they produce no greenhouse gas emissions and have a much smaller environmental footprint than fossil fuel power plants. They also provide a habitat for marine life, with the platforms serving as artificial reefs that attract fish and other aquatic species.

However, offshore wind farms can also have negative impacts on the environment. They can disrupt the natural habitats of marine animals, mainly if they are located in areas with high levels of biodiversity. The construction of offshore wind farms can also be noisy and disruptive, harming marine mammals and other animals.

To mitigate these impacts, offshore wind farm developers work closely with environmental experts to carefully site and design their facilities. They also implement measures to reduce noise and other disturbances during the construction and operation of their wind farms.

Advantages of Offshore Wind Farms

Offshore wind farms offer numerous advantages over other sources of energy. They can produce more energy than onshore wind farms due to the higher wind speeds and more consistent wind flow at sea. They also have a smaller environmental footprint than fossil fuel power plants and require less land than other forms of renewable energy, making them an attractive option for countries with limited available land. Additionally, offshore wind farms have the potential to create jobs and stimulate local economies, particularly in coastal communities.

  • High energy production
    • Offshore wind farms can produce more energy than onshore wind farms due to the higher wind speeds and more consistent wind flow at sea.
  • Small environmental footprint
    • Offshore wind farms have a smaller ecological footprint than fossil fuel power plants, as they produce no greenhouse gas emissions and require less land than other forms of renewable energy.
  • Job creation and economic benefits
    • Offshore wind farms have the potential to create jobs and stimulate local economies, particularly in coastal communities where other forms of industry may be limited.
  • Low operating costs
    • Once installed, offshore wind farms have lower operating costs than traditional fossil fuel power plants.
  • Renewable and sustainable energy
    • Offshore wind farms provide a renewable and sustainable energy source, helping reduce reliance on fossil fuels and combat climate change.
  • Improved public health
    • By reducing the need for fossil fuels, offshore wind farms can help to improve air quality and public health.
  • Innovation and technological advancement
    • The development of offshore wind farms has driven innovation and technological advancement in the renewable energy industry, leading to improved performance and reduced costs.

Challenges in Building Offshore Wind Farms

Offshore wind farms offer many advantages as a source of renewable energy. However, the development of offshore wind farms has its challenges. In fact, there are several technical, economic, social, and regulatory challenges that need to be addressed for successful implementation.

Technical complexity

Technical complexity is a significant challenge when installing and maintaining turbines in a marine environment. The harsh weather conditions, corrosive saltwater, and strong ocean currents can make offshore wind turbines more difficult and expensive to build and maintain than their onshore counterparts. Turbine blades must be built to withstand high wind speeds and corrosive saltwater environments. In addition, the installation process of offshore wind turbines is more complex and requires specialised equipment and vessels.

Economic challenges

Economic challenges are another major obstacle to the development of offshore wind farms. Although the cost of building offshore wind farms has decreased significantly in recent years, they are still more expensive to build and maintain than other forms of renewable energy, such as onshore wind or solar power. Additionally, significant infrastructure, such as undersea cables and onshore transmission lines, is required to connect offshore wind farms to the power grid, which can further increase costs.

Social challenges

Social challenges can also make it difficult to build offshore wind farms. Opposition from local communities and fishing groups can arise due to concerns about the visual impact of wind turbines on the landscape and the impact on fishing and other marine industries. Some communities may also have concerns about noise pollution and potential effects on tourism.

Regulatory challenges

Regulatory challenges can be a significant barrier to the development of offshore wind farms. Obtaining the necessary permits and approvals can be a time-consuming and expensive process, particularly in areas with strict environmental regulations. Developers must comply with various environmental and safety regulations, obtain necessary permits, and secure financing before beginning construction.

While offshore wind farms offer many benefits, the challenges of technical complexity, economic feasibility, social acceptance, and regulatory compliance must be overcome for successful implementation.

The industry must continue to innovate and invest in new technologies while working closely with local communities and environmental experts to ensure that offshore wind farms are developed in a socially and environmentally responsible manner.

Financing Options for Offshore Wind Farms

Financing offshore wind farms is a significant challenge, given the high capital costs and long project timelines. Traditional financing methods, such as project and corporate finance, are often used to fund offshore wind farm projects. Project finance involves the creation of a special-purpose vehicle to fund the project, with the investors receiving a return on their investment from the project's cash flow. Corporate finance involves using a company's balance sheet to finance the project, with the investors receiving a return on their investment from the company's profits.

In recent years, alternative financing methods, such as green bonds and green loans, have also emerged as popular options for financing offshore wind farms. Green bonds are fixed-income securities used to fund environmentally friendly projects, while green loans are specifically designated for green projects.

Offshore wind farms have the potential to play a significant role in the transition to a low-carbon future. They offer numerous advantages over other energy sources, including high energy production, a small environmental footprint, and the potential to create jobs and stimulate local economies. However, they also face significant challenges, such as high capital costs, technical complexity, and opposition from local communities and environmental groups.

To overcome these challenges, offshore wind farm developers must continue to innovate and invest in new technologies while working closely with local communities and environmental experts to ensure that their projects are developed in a socially and environmentally responsible manner. With the global demand for renewable energy expected to grow rapidly in the coming years, offshore wind farms are well-positioned to play a critical role in meeting this demand.

A line of wind turbines in an array

What is a floating wind farm?

A floating wind farm is a type of offshore wind farm where wind turbines are mounted on floating platforms instead of being anchored to the seabed using steel or concrete foundations. They can be located in deeper waters than fixed-bottom wind farms, where the water is too deep for conventional foundations to be used.

Floating wind farms use a variety of floating platforms, such as tension leg platforms, semi-submersible platforms, or spar-buoy platforms, which are anchored to the seabed using cables or chains. These platforms are designed to remain stable in the water, even in rough seas, and they allow wind turbines to be positioned in areas with strong winds and consistent wind flow, where they can generate more energy than onshore or fixed-bottom offshore wind farms.

The development of floating wind farms is still in its early stages, and there are currently only a few operational floating wind farms around the world. However, the technology is rapidly advancing, and many experts believe that floating wind farms could play a significant role in the future of renewable energy. They offer several advantages over fixed-bottom offshore wind farms, including access to deeper waters and a more considerable potential for wind energy production. Additionally, floating wind farms can be located further from the shore, reducing visual and noise impacts on coastal communities.

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Related Resources

Explore more information about the global offshore wind industry with the following related resources from 4C Offshore's team of experts

Global Offshore Wind Turbine Database
Global Offshore Wind Turbine Database
Global Offshore Wind Speed Rankings
Global Offshore Wind Speed Rankings
Global Offshore Wind Farm Map
Global Offshore Wind Farm Map