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市場調查報告書

海上風力發電的全球市場 - 分析、預測:渦輪機、電力基礎設施、基礎

Global Offshore Wind Energy Market: Focus on Components (Turbine, Electrical Infrastructure & Substrate), Focus on Location (Shallow, Transitional & Deep Water) by Revenue, by Regional Installed Capacity - Analysis and Forecast, 2018-2023

出版商 BIS Research Inc. 商品編碼 661447
出版日期 內容資訊 英文 220 Pages
商品交期: 最快1-2個工作天內
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海上風力發電的全球市場 - 分析、預測:渦輪機、電力基礎設施、基礎 Global Offshore Wind Energy Market: Focus on Components (Turbine, Electrical Infrastructure & Substrate), Focus on Location (Shallow, Transitional & Deep Water) by Revenue, by Regional Installed Capacity - Analysis and Forecast, 2018-2023
出版日期: 2018年07月10日 內容資訊: 英文 220 Pages
簡介

本報告提供全球海上風力發電市場調查,市場規模 (以收益為準) 與成長率,各零件的收益,各定位的市場規模,各地區的市場規模,主要趨勢和機會,主要的市場成長的推動要素與課題,新的策略,競爭情形,及主要企業簡介等彙整。

摘要整理

第1章 市場動態

  • 市場成長的促進因素
  • 市場機會
  • 市場成長的阻礙因素

第2章 競爭考察

  • 主要市場開發、策略
  • 市場佔有率分析

第3章 產業分析

  • 產業的魅力
  • 機會矩陣
  • 海上風力發電容量的安裝目標 (各國)
  • 成本分析

第4章 海上風力發電市場:各裝置容量

  • 全球海上風力發電市場分析、預測的前提條件
  • 全球海上風力發電市場分析、預測的限制事項
  • 市場概要
  • 歐洲
  • 北美
  • 亞太地區
  • 其他 (RoW)

第5章 全球海上風力發電市場:各零件

  • 渦輪機
  • 電力基礎設施
  • 基礎
  • 其他

第6章 全球海上風力發電市場:各地區

  • 淺水區
  • 轉移水域
  • 深海域

第7章 全球海上風力發電市場:各地區

  • 歐洲
  • 北美
  • 亞太地區
  • 其他地區 (RoW)

第8章 企業簡介

  • 海上風力發電機零組件廠商
  • China Ming Yang Wind Power Group Limited
  • EEW Group
  • GE Renewable Energy
  • Goldwind Science & Technology Co. Ltd.
  • MHI Vestas Offshore Wind A/S
  • Nordex SE
  • Senvion S.A.
  • Siemens Gamesa Renewable Energy S.A.
  • Sinovel Wind Group Co.ltd.
  • XEMC DARWIND
  • 海上風力發電所所有者
  • ADWEN
  • Northland Power Inc.
  • Orsted
  • 其他 (服務、支援供應商)
  • Clipper Windpower LLC

第9章 調查範圍、調查手法

目錄
Product Code: SE029A

Increasing utilization of renewable energy for power generation mix continues to have a positive impact on the global offshore wind energy market. Today, the offshore wind energy sector has evolved to generate electricity, with the introduction of wind turbines taking off a major load from conventional sources of energy. Offshore wind energy forms an integral part of these clean energy resources and has a higher capacity factor as compared to the onshore wind energy. Wind turbines use the power of natural wind to generate electricity. This process of generating electricity is growing rapidly across the globe. Several developing countries have opened up huge opportunities for the global offshore wind turbines market since the pressure of keeping the carbon emissions low is increasing day-by-day.

The growth of the offshore wind energy market is attributed to the increasing demand for clean energy to reduce carbon emissions and the increasing demand for electricity generation with the help of renewable energy resources. The offshore wind energy market research study offers a wide perspective on where the industry is heading toward. The research is based on extensive primary interviews (in-house experts, industry leaders, and market players) and secondary research (a host of paid and unpaid databases), along with the analytical tools that have been used to build the forecast and the predictive models.

The report answers the following questions about the global offshore wind energy market:

  • What is the global offshore wind energy market size in terms of revenue from 2017-2023, and what will be with the growth rate during the forecast period 2018-2023?
  • What is the dominant component used in the offshore wind turbine for power generation?
  • What is the revenue generated from the different components, such as turbine, substructure, electrical infrastructure, and others?
  • What is the market size of offshore wind turbines for different locations, such as shallow water, transitional water, and deep water?
  • What is the offshore wind energy market size for different regions on the basis of various locations and components?
  • What are the key trends and opportunities in the market pertaining to countries included in different geographical regions?
  • How attractive is the market for different stakeholders present in the industry by analyzing the futuristic scenario of offshore wind energy?
  • What are the major driving forces that are expected to increase the demand for offshore wind turbines during the forecast period?
  • What are the major challenges inhibiting the growth of the global offshore wind energy market?
  • What kind of new strategies are adopted by the existing market players to expand their market position in the industry?
  • What is the competitive strength of the key players in the offshore wind energy market by analyzing their recent developments, product offerings, and regional presence?

The report further includes a thorough analysis of the impact of the Porter's five major forces to understand the overall attractiveness of the industry. The report also focuses on the key developments and investments made in the offshore wind energy market by the players, research organizations, and governmental bodies.

Further, the report includes an exhaustive analysis of the regional split into North America, Europe, Asia-Pacific (APAC), and Rest-of-the-World (RoW). Each region details the individual push and pull forces in addition to the key players from that region. Some of the prominent players in the offshore wind energy market are GE Renewable Energy, Siemens Gamesa Renewable Energy, MHI Vestas, Adwen, Statoil, Senvion, Nexans, and EEW Group.

Executive Summary

Several industries across the globe such as oil and gas, chemical, and transportation, among others, are dependent on fossil fuels for electricity/power generation. Although these fuels are very effective, they are subjected to depletion in the long run. Moreover, these fossil fuels are the origin of greenhouse gases which further lead to global warming. Thus, the shift from fossil fuels to the renewable sources of energy and the development of clean energy are of utmost importance for effectively dealing with climate change and its effects. This shift would also address the growing electricity demand across the globe. As per the data by International Energy Agency (IEA), the world electricity demand will increase by 70% by 2040 due to the emerging economies of India, China, Africa, the Middle East, and South-East Asia. Moreover, more than 17% of the global population does not have access to electricity, and the majority of the population uses conventional sources for heating and lighting purposes.

Wind energy is considered as the most efficient energy of all the renewable energies available globally. This is because it does not emit toxic substances and wastes and do not contaminate air or water. Wind farms can be based onshore (on land) or offshore (sea or freshwater). As per the data by the World Wind Energy Association (WWEA), 80 countries across the globe are already using wind power on a commercial basis, wherein prominent countries, such as the U.S., Canada, and the U.K. are ranked first, second and eighth, respectively in terms of installed capacity (both onshore and offshore).

Offshore wind power, i.e. the kinetic energy of the wind, is one of the sources of clean and renewable electricity/power for countries across the globe. The offshore wind power involves using energy from wind turbine to generate electricity. Wind farms are constructed off the coasts, usually on the continental shelf to produce the wind energy for electricity generation. The offshore wind energy technology has attained considerable growth in a very short span of time, but there is clearly much development expected in terms of technological advancement. Increase in investments by governments, especially in the developing countries, such as China and India, rapid urbanization, and rising demand for clean and renewable energy, are expected to support the market growth of offshore wind energy.

Offshore wind turbines prove to be more competent than onshore wind turbines due to the more consistent wind speed and direction. Due to this, less number of turbines are required to be installed to generate the same amount of electricity as compared to onshore turbines. Moreover, offshore wind turbines do not interfere with regular land use. These prove to be advantageous with high energy potentials associated with the large areas and the stronger winds. Offshore wind infers better power generation; however, they have higher initial investment, operation, and maintenance costs. Although the fundamentals of technology are the same in both onshore and offshore, the offshore wind technology is expected to witness more advancements than the onshore technology.

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The offshore wind energy market is projected to grow from $XX million in the year 2018 to $50,450.9 million by 2023, at a CAGR of XX% from 2018 to 2023. This growth is attributed to the rising demand for renewable energy sources for power generation, increasing investments in the offshore wind energy sector by several companies and government of different countries, and the government initiatives to reduce the carbon footprint. Each region has varied installed capacity of wind power generated on offshore setups. The global offshore wind energy market in terms of installed capacity is projected to grow from XX MW in the year 2018 to 55,835MW by 2023, growing at a CAGR of XX% from 2018 to 2023.

The offshore wind energy turbines require various components to perform the operations efficiently. Some of these components are electrical infrastructure, substructure, and others. Also, sea depth is an important factor while checking for the feasibility of the offshore wind farms because the cost of foundations significantly increases with the increase in depth. The most commonly preferred types of sea depth for installing wind turbines are shallow water (0-30m), transitional water (30-50m), and deep water (50-200m).

The trends of the offshore wind energy market vary across different geographical regions. The offshore wind energy market holds a prominent share in various countries of North America, Europe, Asia-Pacific (APAC), and Rest-of-the-World (RoW). Presently, North America and Europe are at the forefront of the offshore wind energy market, with high market penetration in countries such as the U.S., the Netherlands, the U.K., Spain, Italy, and France, among others. However, during the forecast period, the Asia-Pacific region is expected to display the highest growth rate. Increased awareness about the use of renewable energy mix for power generation is supporting the growth of the offshore wind energy market in the region.

Competitive Landscape

The competitive landscape for the offshore wind energy market demonstrates an inclination toward companies adopting strategies such as business expansion, product launch and development, partnerships, joint ventures, and collaboration, and others. The growing market for offshore wind energy is further expected to increase the involvement of companies across different segments of the value chain. MHI Vestas, Siemens Gamesa, GE Renewable Energy, Adwen Offshore Inc., Statoil, Orsted, ABB ltd., Senvion, Sinovel, and Petrofac Inc., among others, are some of the prominent players in the offshore wind energy market.

The market has presence of a large number of small-sized to medium-sized companies that compete with each other and the large enterprises. The key players operating in this market have increased their business expansion over the recent years to enhance their geographical presence, enter into new ventures, and increase their customer base. Business expansion has been the most widely adopted strategy by the players in this market. New product launch has also been a significantly adopted strategy in the offshore wind energy market. With the increasing growth in the global market, companies operating in this industry are coming up with new turbines to generate public awareness about their existing and new products, technologies, and components, and compete with the competitors' product portfolio.

The need for more R&D activities and appropriate regulatory environments is a prerequisite for sustained growth of this market. Various government and private research institutes and regulatory bodies and associations are putting in substantial efforts to identify how offshore wind energy can be better utilized for meeting the growing demand for power generation. The technology advancements in various components can provide good growth opportunities to the players in the offshore wind energy market. Moreover, the emergence of wind/solar hybrids, more sophisticated grid management, and increasingly affordable storage are expected to define the future of this commercial fossil-free power sector. The wind power technology is the most competitively priced technology in majority of the markets across the globe.

Table of Contents

Executive Summary

1 Market Dynamics

  • 1.1 Drivers
    • 1.1.1 Growing Demand for Renewable Energy for Power Generation
    • 1.1.2 Government Initiatives to Reduce Carbon Footprint
  • 1.2 Restraints
    • 1.2.1 High Capital Expenditure and Cost of Energy
  • 1.3 Opportunities
    • 1.3.1 Innovative Technology Advancement in Offshore Wind Components
    • 1.3.2 Increased R&D Expenditure

2 Competitive Insights

  • 2.1 Key Market Developments and Strategies
    • 2.1.1 Business Expansion
    • 2.1.2 Partnerships, Agreements, Collaborations, and Joint Ventures
    • 2.1.3 New Product Launch and Development
    • 2.1.4 Others (Merger and Acquisition, Investment and Awards)
  • 2.2 Market Share Analysis
    • 2.2.1 Market Share Analysis of Global Offshore Wind Energy Market
    • 2.2.2 Market Share Analysis of European Offshore Wind Energy Market
      • 2.2.2.1 Europe Offshore Wind Energy Market Share, by Wind Turbine Manufacturers
      • 2.2.2.2 Europe Offshore Wind Farms Owners Market Share, 2017

3 Industry Analysis

  • 3.1 Industry Attractiveness
    • 3.1.1 Threat of New Entrants
    • 3.1.2 Bargaining Power of Buyers
    • 3.1.3 Bargaining Power of Suppliers
    • 3.1.4 Threat from Substitutes
    • 3.1.5 Intensity of Competitive Rivalry
  • 3.2 Opportunity Matrix
  • 3.3 Target of Offshore Wind Energy Capacity Installation (by Country)
  • 3.4 Cost Analysis

4 Global Offshore Wind Energy Market by Installed Capacity

  • 4.1 Assumptions for Analysis and Forecast of the Global Offshore Wind Energy Market
  • 4.2 Limitations for Analysis and Forecast of the Global Offshore Wind Energy Market
  • 4.3 Market Overview
  • 4.4 Europe
    • 4.4.1 Installed Capacity of Europe Offshore Wind Energy Market (by Country)
  • 4.5 North America
    • 4.5.1 Installed Capacity of North America Offshore Wind Energy Market (by Country)
  • 4.6 Asia-Pacific
    • 4.6.1 Installed Capacity of Asia Pacific Offshore Wind Energy Market (by Country)
  • 4.7 Rest-of-the-World (RoW)
    • 4.7.1 Installed Capacity of RoW Offshore Wind Energy Market (by Country)

5 Global Offshore Wind Energy Market (by Component)

  • 5.1 Turbine
  • 5.2 Electrical Infrastructure
  • 5.3 Substructure
  • 5.4 Others

6 Global Offshore Wind Energy Market (by Location)

  • 6.1 Shallow Water
  • 6.2 Transitional Water
  • 6.3 Deep Water

7 Global Offshore Wind Energy Market (by Region)

  • 7.1 Europe
    • 7.1.1 Europe Offshore Wind Energy Market (by Components)
    • 7.1.2 Europe Offshore Wind Energy Market (by Country)
      • 7.1.2.1 Germany
      • 7.1.2.2 The U.K.
      • 7.1.2.3 The Netherlands
      • 7.1.2.4 Denmark
      • 7.1.2.5 Belgium
      • 7.1.2.6 Rest-of-Europe
  • 7.2 North America
    • 7.2.1 North America Offshore Wind Energy Market (by Components)
    • 7.2.2 North America Offshore Wind Energy Market (by Country)
      • 7.2.2.1 The U.S.
      • 7.2.2.2 Canada
      • 7.2.2.3 Mexico
  • 7.3 Asia-Pacific (APAC)
    • 7.3.1 Asia-Pacific Offshore Wind Energy Market (by Components)
    • 7.3.2 Asia Pacific Offshore Wind Energy Market, by Country
      • 7.3.2.1 China
      • 7.3.2.2 India
      • 7.3.2.3 South Korea
      • 7.3.2.4 Japan
      • 7.3.2.5 Taiwan
      • 7.3.2.6 Rest-of-Asia Pacific
  • 7.4 Rest-of-the-World (RoW)
    • 7.4.1 RoW Offshore Wind Energy Market (by Components)
    • 7.4.2 RoW Offshore Wind Energy Market (by Country)
      • 7.4.2.1 Saudi Arabia
      • 7.4.2.2 Brazil
      • 7.4.2.3 South Africa
      • 7.4.2.4 Others

8 Company Profiles

  • Offshore Wind Turbine Component Manufacturers
  • 8.1 China Ming Yang Wind Power Group Limited
    • 8.1.1 Company Overview
    • 8.1.2 Product Portfolio
    • 8.1.3 Corporate Summary
    • 8.1.4 SWOT Analysis
  • 8.2 EEW Group
    • 8.2.1 Company Overview
    • 8.2.2 Product Portfolio
    • 8.2.3 Corporate Summary
    • 8.2.4 SWOT Analysis
  • 8.3 GE Renewable Energy
    • 8.3.1 Company Overview
    • 8.3.2 Product Portfolio
    • 8.3.3 Financials
      • 8.3.3.1 Financial Summary
    • 8.3.4 SWOT Analysis
  • 8.4 Goldwind Science & Technology Co. Ltd.
    • 8.4.1 Company Overview
    • 8.4.2 Product Portfolio
    • 8.4.3 Financials
      • 8.4.3.1 Financial Summary
    • 8.4.4 SWOT Analysis
  • 8.5 MHI Vestas Offshore Wind A/S
    • 8.5.1 Company Overview
    • 8.5.2 Product Portfolio
    • 8.5.3 Corporate Summary
    • 8.5.4 SWOT Analysis
  • 8.6 Nordex SE
    • 8.6.1 Company Overview
    • 8.6.2 Product Portfolio
    • 8.6.3 Financials
      • 8.6.3.1 Financial Summary
    • 8.6.4 SWOT Analysis
  • 8.7 Senvion S.A.
    • 8.7.1 Company Overview
    • 8.7.2 Product Portfolio
    • 8.7.3 Financials
      • 8.7.3.1 Financial Summary
    • 8.7.4 SWOT Analysis
  • 8.8 Siemens Gamesa Renewable Energy S.A.
    • 8.8.1 Company Overview
    • 8.8.2 Product Portfolio
    • 8.8.3 Financials
      • 8.8.3.1 Financial Summary
    • 8.8.4 SWOT Analysis
  • 8.9 Sinovel Wind Group Co.ltd.
    • 8.9.1 Company Overview
    • 8.9.2 Product Portfolio
    • 8.9.3 Corporate Summary
    • 8.9.4 SWOT Analysis
  • 8.10 XEMC DARWIND
    • 8.10.1 Company Overview
    • 8.10.2 Product Portfolio
    • 8.10.3 Corporate Summary
    • 8.10.4 SWOT Analysis
  • Offshore Wind Farm Owners
  • 8.11 ADWEN
    • 8.11.1 Company Overview
    • 8.11.2 Product Portfolio
    • 8.11.3 Corporate Summary
    • 8.11.4 SWOT Analysis
  • 8.12 Northland Power Inc.
    • 8.12.1 Company Overview
    • 8.12.2 Product Portfolio
    • 8.12.3 Financials
      • 8.12.3.1 Financial Summary
    • 8.12.4 SWOT Analysis
  • 8.13 Orsted
    • 8.13.1 Company Overview
    • 8.13.2 Product Portfolio
    • 8.13.3 Financials
      • 8.13.3.1 Financial Summary
    • 8.13.4 SWOT Analysis
  • 8.14 Statoil
    • 8.14.1 Company Overview
    • 8.14.2 Product Portfolio
    • 8.14.3 Financials
      • 8.14.3.1 Financial Summary
    • 8.14.4 SWOT Analysis
  • Other (Service and Support Providers)
  • 8.15 Clipper Windpower LLC
    • 8.15.1 Company Overview
    • 8.15.2 Product Portfolio
    • 8.15.3 Corporate Summary
    • 8.15.4 SWOT Analysis

9 Research Scope and Methodology

  • 9.1 Report Scope
  • 9.2 Global Offshore Wind Energy Market Research Methodology
    • 9.2.1 Assumptions
    • 9.2.2 Limitations
    • 9.2.3 Primary Data Sources
    • 9.2.4 Secondary Data Sources
    • 9.2.5 Data Triangulation
    • 9.2.6 Market Estimation and Forecast

List of Tables

  • Table 1 Market Snapshot: Global Offshore Wind Energy Market
  • Table 3.1 Analyzing Threat of New Entrants
  • Table 3.2 Analyzing the Bargaining Power of Buyers
  • Table 3.3 Analyzing the Bargaining Power of Suppliers
  • Table 3.4 Analyzing the Threat from Substitutes
  • Table 3.5 Analyzing the Intensity of Competitive Rivalry
  • Table 3.6 Target of Offshore Wind Energy Capacity Installation (by Country)
  • Table 4.1 Global Offshore Wind Energy Market (by Installed Capacity), MW, 2017-2023
  • Table 4.2 Installed Capacity of Europe Offshore Wind Energy Market (by Country), MW, 2017-2023
  • Table 4.3 Installed Capacity of Asia Pacific Offshore Wind Energy Market (by Country), MW, 2017-2023
  • Table 4.4 Installed Capacity of Asia Pacific Offshore Wind Energy Market (by Country), MW, 2017-2023
  • Table 4.5 Installed Capacity of RoW Offshore Wind Energy Market (by Country), MW, 2017-2023
  • Table 5.1 Characteristics of the Commonly Used Offshore Turbine
  • Table 5.2 Global Offshore Wind Energy Market (by Components), 2017-2023
  • Table 5.3 Subparts of Turbines
  • Table 5.4 Products for Wind Turbines by Leading Market Players
  • Table 5.5 Recent Developments pertaining to the Wind Turbine Segment
  • Table 5.6 Recent Developments pertaining to the Electrical Infrastructure Segment
  • Table 5.7 Developments pertaining to the Substructure Segment
  • Table 6.1 Global Offshore Wind Energy Market (by Location), 2017-2023
  • Table 6.2 Recent Developments pertaining to the Shallow Water Offshore
  • Table 6.3 Recent Developments in the Deep Water Offshore Segment
  • Table 7.1 Global Offshore Wind Energy Market (by Region), 2017-2023
  • Table 7.2 List of Operational Offshore Wind Farms in Europe
  • Table 7.3 Largest Under-Construction Offshore Wind Energy Projects in Europe
  • Table 7.4 Number of Cumulative Wind Farms in Europe (by Country)
  • Table 7.5 Europe Offshore Wind Energy Market (by Components), 2017-2023
  • Table 7.6 Europe Offshore Wind Energy Market Market (by Country), $Million, 2017-2023
  • Table 7.7 Germany Offshore Wind Energy Facts: 2017
  • Table 7.8 U.K. Offshore Wind Energy Facts: 2017
  • Table 7.9 Upcoming Offshore Projects in the Netherlands
  • Table 7.10 Recent Developments pertaining to the Netherlands Offshore Wind Energy Sector
  • Table 7.11 Upcoming Offshore Wind Energy Projects in Denmark
  • Table 7.12 Recent Developments pertaining to Belgium Offshore Wind Energy Segment
  • Table 7.13 North America Offshore Wind Energy Market (by Components), $Million, 2017-2023
  • Table 7.14 North America Offshore Wind Energy Market Market (by Country), $Million, 2017-2023
  • Table 7.15 Largest Offshore Wind Farms in the U.S.
  • Table 7.16 Wind Farms Installed Capacity in Canada
  • Table 7.17 Recent Developments pertaining to the Mexican Offshore Wind Energy Market
  • Table 7.18 Asia-Pacific Offshore Wind Energy Market (by Components), $Million, 2017-2023
  • Table 7.19 Asia-Pacific Offshore Wind Energy Market (by Country), $Million, 2017-2023
  • Table 7.20 Leading Offshore Wind Farm Developers in China
  • Table 7.21 Recent Developments pertaining to the Offshore Wind Industry in India
  • Table 7.22 Recent Developments pertaining to the Offshore Wind Industry in South Korea
  • Table 7.23 Overview of the Offshore Projects in Japan, 2017
  • Table 7.24 RoW Offshore Wind Energy Market (by Components), $Million, 2017-2023
  • Table 7.25 RoW Offshore Wind Energy Market Market (by Country), $Million, 2017-2023
  • Table 8.1 China Ming Yang Wind Power Group Limited: Project Details
  • Table 8.2 EEW Group: Product Portfolio
  • Table 8.3 GE Renewable Energy: Product Portfolio
  • Table 8.4 Goldwind Science & Technology Co.Ltd.: Product Portfolio
  • Table 8.5 MHI Vestas Offshore Wind A/S: Product Details
  • Table 8.6 Nordex SE: Product Portfolio
  • Table 8.7 Senvion S.A.: Product Portfolio
  • Table 8.8 Siemens Gamesa Renewable Energy S.A.: Product Portfolio
  • Table 8.9 Sinovel Wind Group Pvt.ltd.: Product Portfolio
  • Table 8.10 XEMC DARWIND: Product Portfolio
  • Table 8.11 ADWEN: Project Details
  • Table 8.12 Northland Power Inc.: Project Details
  • Table 8.13 Orsted: Project Details
  • Table 8.14 Statoil: Offshore Wind Projects

List of Figures

  • Figure 1 Global Offshore Wind Energy Market Snapshot ($Million) and (MW)
  • Figure 2 Global Offshore Wind Energy Market by Component ($Million)
  • Figure 3 Global Offshore Wind Energy Market by Location ($Million)
  • Figure 4 Global Offshore Wind Energy Market by Installed Capacity (MW)
  • Figure 5 Global Offshore Wind Energy Market by Region
  • Figure 6 Global Offshore Wind Energy Market by Country, 2017 ($Million)
  • Figure 1.1 Market Dynamics
  • Figure 1.2 Impact Analysis of Drivers
  • Figure 1.3 Global Electricity Generation Mix
  • Figure 1.4 Impact Analysis of Restraints
  • Figure 1.5 Cost Breakdown of an Offshore Wind Farm
  • Figure 1.6 Impact Analysis of Opportunities
  • Figure 2.1 Strategies Adopted by the Key Players
  • Figure 2.2 Share of Key Market Strategies and Developments, July 2015 - May 2018
  • Figure 2.3 Business Expansion Share of Key Companies, April 2015-April 2018
  • Figure 2.4 Partnerships, Agreements, Collaborations, and Joint Ventures Share of Key Companies, April 2015-April 2018
  • Figure 2.5 New Product Launch and Development Share of Companies, April 2015-April 2018
  • Figure 2.6 Others Development Share by Companies, April 2015-April 2018
  • Figure 2.7 Market Share Analysis of Leading Companies in Global Offshore Wind Energy Market, 2017 (%)
  • Figure 2.8 Market Share Analysis of Wind Turbine Manufacturers, 2017 (%)
  • Figure 2.9 Europe Offshore Wind Farms Owners Market Share, 2017
  • Figure 3.1 Porter's Five Forces Analysis
  • Figure 3.2 Global Offshore Wind Energy Market Opportunity Matrix by Region ($Million), 2018-2023
  • Figure 3.3 Offshore Wind Farms Cost Breakdown
  • Figure 3.4 Cost Comparisons between Onshore and Offshore
  • Figure 4.1 Global Offshore Wind Energy Market by Installed Capacity 2018 and 2023
  • Figure 4.2 Installed Capacity of Europe Offshore Wind Energy Market (by Country), MW, 2018 and 2023
  • Figure 4.3 Installed Capacity of North America Offshore Wind Energy Market (by Country), MW, 2018 and 2023
  • Figure 4.4 Installed Capacity of Asia-Pacific Offshore Wind Energy Market (by Country), MW, 2018 and 2023
  • Figure 4.5 Installed Capacity of RoW Offshore Wind Energy Market (by Country), MW, 2018 and 2023
  • Figure 5.1 Global Offshore Wind Energy Market (by Component), $Million, 2018 and 2023
  • Figure 5.2 Turbine Module in Offshore Wind Energy Market, $Million, 2017-2023
  • Figure 5.3 Electrical Infrastructure in Offshore Wind Energy Market, $Million, 2017-2023
  • Figure 5.4 Substructure Types
  • Figure 5.5 Substructure in Offshore Wind Energy Market, $Million, 2017-2023
  • Figure 5.6 Other Components Used in the Offshore Wind Turbines
  • Figure 5.7 Others in Offshore Wind Energy Market, $Million, 2017-2023
  • Figure 6.1 Global Offshore Wind Energy Market (by Location)
  • Figure 6.2 Global Offshore Wind Energy Market (by Location), $Million
  • Figure 6.3 Cost Breakdown for an Offshore Wind Plant in Shallow Water
  • Figure 6.4 Shallow Water in Offshore Wind Energy Market, $Million, 2017-2023
  • Figure 6.5 Transitional Water in Offshore Wind Energy Market, $Million, 2017-2023
  • Figure 6.6 Location of Deepwater Wind Energy (Based on Number of Projects), 2017
  • Figure 6.7 Deepwater in Offshore Wind Energy Market, $ Million, 2017-2023
  • Figure 7.1 Offshore Wind Energy Market- Regional Segmentation
  • Figure 7.2 Offshore Wind Energy Market Regional Market Share and Growth Rate, 2018-2023
  • Figure 7.3 Europe Offshore Wind Energy Market, $Million, 2017-2023
  • Figure 7.4 Offshore Market: Projects Online, Under Construction, and Consented (GW)
  • Figure 7.5 Europe Offshore Wind Energy Market (by Components), 2018 and 2023
  • Figure 7.6 Europe Geographical Concentration of Offshore Wind Investments, 2017
  • Figure 7.7 Europe Offshore Wind Energy Market (by Country), 2017, 2018, and 2023
  • Figure 7.8 Percentage of Power Generation Mix in Germany, 2017
  • Figure 7.9 Germany Offshore Wind Energy Market, $Million, 2017-2023
  • Figure 7.10 Upcoming Offshore Wind Farms in the U.K.
  • Figure 7.11 U.K. Offshore Wind Energy Market, $Million, 2017-2023
  • Figure 7.12 Netherlands Offshore Wind Energy Market, $Million, 2017-2023
  • Figure 7.13 Offshore Wind Farms in Denmark
  • Figure 7.14 Denmark Offshore Wind Energy Market, $Million, 2017-2023
  • Figure 7.15 Belgium Offshore Wind Energy Market, $Million, 2017-2023
  • Figure 7.16 Rest-of-Europe Offshore Wind Energy Market, $Million, 2017-2023
  • Figure 7.17 North America Offshore Wind Energy Market, $Million, 2017-2023
  • Figure 7.18 North America Offshore Wind Energy Market (by Components), 2018 and 2023
  • Figure 7.19 North America Offshore Wind Energy Market (by Country), 2017, 2018, and 2023
  • Figure 7.20 U.S. Offshore Wind Energy Market, $Million, 2017-2023
  • Figure 7.21 Canada Offshore Wind Energy Market, $Million, 2017-2023
  • Figure 7.22 Mexico Offshore Wind Energy Market, 2017-2023
  • Figure 7.23 Asia-Pacific Offshore Wind Energy Market, $Million, 2017-2023
  • Figure 7.24 Asia-Pacific Offshore Wind Energy Market (by Components), 2018 and 2023
  • Figure 7.25 Asia-Pacific Offshore Wind Energy Market (by Country), 2017, 2018, and 2023
  • Figure 7.26 Renewable Energy Plan of China: 2010, 2015, and 2020
  • Figure 7.27 Offshore Wind Projects - Pipeline and Targeted, 2015 and 2020
  • Figure 7.28 Upcoming Offshore Wind Energy Projects in China
  • Figure 7.29 China Offshore Wind Energy Market, 2017-2023
  • Figure 7.30 India Offshore Wind Energy Market, $Million, 2017-2023
  • Figure 7.31 South Korea Offshore Wind Energy Market, $Million, 2017-2023
  • Figure 7.32 Japan Offshore Wind Energy Market, $Million, 2017-2023
  • Figure 7.33 Taiwan Offshore Wind Energy Market, $Million, 2017-2023
  • Figure 7.34 Rest-of-APAC Offshore Wind Energy Market, $Million, 2017-2023
  • Figure 7.35 RoW Offshore Wind Energy Market, $Million, 2017-2023
  • Figure 7.36 RoW Offshore Wind Energy Market (by Components), 2018 and 2023
  • Figure 7.37 RoW Offshore Wind Energy Market (by Country), 2017, 2018, and 2023
  • Figure 7.38 Saudi Arabia Offshore Wind Energy Market, $Million, 2017-2023
  • Figure 7.39 Brazil Offshore Wind Energy Market, $Million, 2017-2023
  • Figure 7.40 South Africa Offshore Wind Energy Market, $Million, 2017-2023
  • Figure 7.41 Others Offshore Wind Energy Market, $Million, 2017-2023
  • Figure 8.1 Share of Key Companies
  • Figure 8.2 China Ming Yang Wind Power Group Limited: SWOT Analysis
  • Figure 8.3 EEW Group: SWOT Analysis
  • Figure 8.4 GE Renewable Energy: Overall Financials, 2015-2017
  • Figure 8.5 GE Renewable Energy: Net Revenue by Business Segment, 2015
  • Figure 8.6 GE Renewable Energy: Net Revenue by Business Segment, 2016-2017
  • Figure 8.7 GE Renewable Energy: Net Revenue by Regional Segment, 2015
  • Figure 8.8 GE Renewable Energy: Net Revenue by Regional Segment, 2016-2017
  • Figure 8.9 GE Renewable Energy: SWOT Analysis
  • Figure 8.10 Goldwind Science & Technology Co.Ltd.: Overall Financials, 2015-2017
  • Figure 8.11 Goldwind Science & Technology Co.ltd.: Net Revenue by Business Segment, 2015-2017
  • Figure 8.12 Goldwind Science & Technology Co.ltd.: SWOT Analysis
  • Figure 8.13 MHI Vestas Offshore Wind A/S: SWOT Analysis
  • Figure 8.14 Nordex SE: Overall Financials, 2015-2017
  • Figure 8.15 Nordex SE: Net Revenue by Regional Segment, 2015-2017
  • Figure 8.16 Nordex SE: Net Revenue by Business Segment, 2015-2017
  • Figure 8.17 Nordex SE: SWOT Analysis
  • Figure 8.18 Senvion S.A.: Overall Financials, 2015-2017
  • Figure 8.19 Senvion S.A.: Net Revenue by Business Segment, 2015-2017
  • Figure 8.20 Senvion S.A.: Net Revenue by Region Segment, 2015
  • Figure 8.21 Senvion S.A.: Net Revenue by Region Segment, 2016-2017
  • Figure 8.22 Senvion S.A.: SWOT Analysis
  • Figure 8.23 Siemens Gamesa Renewable Energy S.A.: Overall Financials, 2015-2017
  • Figure 8.24 Siemens Gamesa Renewable Energy S.A.: Net Revenue by Business Segment, 2016
  • Figure 8.25 Siemens Gamesa Renewable Energy S.A.: Net Revenue by Region Segment, 2016
  • Figure 8.26 Siemens Gamesa Renewable Energy S.A.: SWOT Analysis
  • Figure 8.27 Sinovel Wind Group Pvt.ltd.: SWOT Analysis
  • Figure 8.28 XEMC DARWIND: SWOT Analysis
  • Figure 8.29 ADWEN: SWOT Analysis
  • Figure 8.30 Northland Power Inc.: Overall Financials, 2015-2017
  • Figure 8.31 Northland Power Inc.: Net Revenue by Business Segment, 2015
  • Figure 8.32 Northland Power Inc.: Net Revenue by Business Segment, 2016-2017
  • Figure 8.33 Northland Power Inc.: Net Revenue by Regional Segment, 2015-2017
  • Figure 8.34 Northland Power Inc.: SWOT Analysis
  • Figure 8.35 Orsted: Overall Financials, 2015-2017
  • Figure 8.36 Orsted: Net Revenue by Business Segment, 2017
  • Figure 8.37 Orsted: Net Revenue by Region Segment, 2015-2016
  • Figure 8.38 Orsted: SWOT Analysis
  • Figure 8.39 Statoil: Overall Financials, 2015-2017
  • Figure 8.40 Statoil: Net Revenue by Business Segment, 2015-2017
  • Figure 8.41 Statoil: SWOT Analysis
  • Figure 8.42 Clipper Windpower LLC: SWOT Analysis
  • Figure 9.1 Offshore Wind Energy Market Scope
  • Figure 9.2 Report Design
  • Figure 9.3 Primary Interviews Breakdown by Player, Designation, and Region
  • Figure 9.4 Sources of Secondary Research
  • Figure 9.5 Data Triangulation
  • Figure 9.6 Top Down-Bottom-Up Approach for Market Estimation
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