Tuesday, 31 January 2017

Global Offshore Wind Energy Market Is Predicted To Touch 52,120.9 MW In 2022, Rising At A Remarkable CAGR Of 25.0%

Researchmoz added Most up-to-date research on "Offshore Wind Energy Market - Global Industry Analysis, Size, Share, Growth, Trends, and Forecast 2014 - 2022" to its huge collection of research reports.

This research study has been designed to analyze and estimate the market for offshore wind energy globally both in terms of installed capacity (MW) and investments (USD Million). The global market for offshore wind energy has been segmented geographically into four regional segments and nine unique country segments. The regional segments include Europe, Asia Pacific, North America, and Europe. The nine countries which have been separately addressed in this report are the U.K, Germany, Denmark, Belgium, Sweden, the Netherlands, China, Japan, and the U.S. The market report features an in-depth geographic segmentation along with market growth forecasts for the 2014–2022 period. For this market study, 2013 has been taken as the base year, while all forecasts are for the 2014–2022 period.

This report addresses the key market dynamics impacting the capacity additions for offshore wind energy globally. As a part of our market dynamics analysis, we separately consider and analyze market drivers, market restraints, and market opportunities. The report also provides a detailed analysis of the global offshore wind energy market with the help of Porter’s Five Forces model. The Porter’s Five Forces analysis aids in understanding the five major forces that affect the industry structure and also impacts capacity additions for offshore wind energy globally. The forces analyzed are the bargaining power of buyers, bargaining power of suppliers, threat from new entrants, threat from substitutes, and degree of competition. The report also includes a glimpse of the global offshore wind energy market value chain. The interaction and roles of various stakeholders ranging from component suppliers and turbine manufacturers to project developers and end-users have been elucidated in detail. The market attractiveness analysis involves benchmarking and ranking of each region on the basis of numerous parameters. The parameters selected are likely to have a pronounced effect on the capacity additions for the offshore wind energy in that region, both currently and in the near future.

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Apart from this, the report features a highly detailed and granular analysis of costs of offshore wind turbines. The cost breakdown analysis is further supplemented with the cost reduction factors and an analysis on which factors would emerge as game changers for the offshore wind energy sector within the forecast period. The report also includes a broad overview of certain mergers, acquisitions, and other deals that have occurred in the sector and are likely to have a major impact on market dynamics in the future. Key participants in the offshore wind energy sector include Siemens Wind Power, Vestas Wind Systems A/S, Goldwind Science and Technology Co. Ltd., Gamesa Corporacion Tecnologica S.A., GE Wind Energy, Sinovel Wind Group Co. Ltd., Dong Energy A/S, Suzlon Group, Nordex SE, and China Ming Yang Wind Power Group Limited. This report provides an overview of these companies, followed by their financial revenues, business strategies, and recent developments.

Offshore Wind Energy Market: Regional Analysis

- North America
- U.S.
- Rest of North America
- Europe
- U.K
- Germany
- Denmark
- Belgium
- Sweden
- Netherlands
- Rest of Europe
- Asia Pacific
- China
- Japan
- Rest of Asia Pacific
- Rest of the World

Table Of Contnet

Chapter 1 Preface
1.1 Report Description
1.2 Research Scope
1.3 Market Segmentation
1.4 Research Methodology

Chapter 2 Executive Summary
2.1 Global Offshore Wind Energy Market

Chapter 3 Offshore Wind Energy Market – Industry Analysis
3.1 Introduction
3.2 Value Chain Analysis: Offshore Wind Energy Market
3.3 Market Drivers
3.3.1 Numerous Advantages Over Its Onshore Counterpart Is Significantly Bolstering Capacity Additions In The Offshore Wind Sector
3.3.1.1 Cumulative Installed Capacity for Onshore and Offshore Wind Power, 2007 – 2013 (MW)
3.3.2 Conducive Incentive Mechanisms And Regulatory Frameworks For The Offshore Wind Energy Sector Increasing Investments And Accelerating Capacity Additions
3.3.3 Increasing Utilization Of Project Financing In Offshore Wind Energy Projects Is Expected To Increase Investor Confidence And Speed Up Capacity Additions
3.4 Market Restraints
3.4.1 Higher Capital Costs Associated With Projects Are Hampering Brisk Capacity Additions
3.4.2 Presence Of Bottlenecks In The Supply Chain Hampers Brisk Project Development Activities In The Offshore Sector
3.5 Market Opportunities
3.5.1 New Offshore Projects Using Floating Wind Turbines Are Expected To Result In A Spurt Of Project Development Activities In Deepwater Locations
3.6 Porter’s five forces analysis: Offshore Wind Energy Market
3.6.1 Bargaining power of suppliers
3.6.2 Bargaining power of buyers
3.6.3 Threat from new entrants
3.6.4 Degree of competition
3.6.5 Threat from substitutes
3.7 Offshore Wind Energy Sector – Deal Analysis
3.7.1 Vestas Wind Systems A/S (Vestas) and Mitsubishi Heavy Industries Ltd. (MHI) Joint Venture
3.7.2 Areva S.A and Gamesa Corporación Tecnológica (Gamesa) Joint Venture
3.7.3 Siemens AG acquisition of A2SEA A/S
3.8 Offshore Wind Energy Sector – Capital Cost Analysis
3.8.1 Conceptualization Costs
3.8.1.1 Global Offshore Wind Energy Market, Conceptualization Cost Breakdown, By Cost Component, 2014
3.8.2 Wind Turbine Costs
3.8.2.1 Global Offshore Wind Energy Market, Wind Turbine Cost Breakdown, By Cost Component, 2014
3.8.3 Balance of Plant Costs
3.8.3.1 Global Offshore Wind Energy Market, Balance of Plant Cost Breakdown, By Cost Component, 2014
3.8.4 Installation Costs
3.8.4.1 Global Offshore Wind Energy Market, Installation Cost Breakdown, By Cost Component, 2014
3.8.5 Total Lifetime Costs
3.8.5.1 Global Offshore Wind Energy Market, Total Lifetime Cost Breakdown, By Cost Component, 2014
3.9 Offshore Wind Energy Sector – Cost Reduction Opportunity Analysis
3.9.1 Turbine Cost
3.9.1.1 Global Offshore Wind Energy Market, Turbine Cost Reduction Opportunities, By Reduction Factors, 2014
3.9.1.2 Global Offshore Wind Energy Market, Turbine Cost Reduction Possibilities, By Percentage Reduction & Probability, 2014
3.9.1.3 Europe Offshore Wind Energy Market, Average Installed Turbine Size, By Capacity per Turbine, 2000 – 2013
3.9.2 Foundation Costs
3.9.2.1 Global Offshore Wind Energy Market, Foundation Cost Reduction Opportunities, By Reduction Factors, 2014
3.9.2.2 Global Offshore Wind Energy Market, Foundation Cost Reduction Possibilities, By Percentage Reduction & Probability, 2014
3.9.3 Grid Connection Costs
3.9.3.1 Global Offshore Wind Energy Market, Grid Connection Cost Reduction Possibilities, By Percentage Reduction & Probability, 2014
3.9.4 Installation Costs
3.9.4.1 Global Offshore Wind Energy Market, Installation Cost Reduction Opportunities, By Reduction Factors, 2014
3.9.4.2 Global Offshore Wind Energy Market, Installation Cost Reduction Possibilities, By Percentage Reduction & Probability, 2014
3.10 Market Attractiveness Analysis
3.10.1 Market Attractiveness Analysis of Global Offshore Wind Energy Market, by Region, 2013

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