海上風力發電的未來 是由出版商Business Insights在2011年10月所出版的。
這份英文市場調查報告書包含Pages: 136 價格從美金2875起跳。
海上風力發電,是開發的再生能源中最新且引起最大的關注的主要電力源之一。其歷史很短在20年以下,但隨著此期間的進步,實用性以及所產生利益的未來性的技術將成長。
本報告提供海上風力發電著眼,風力發電技術的新的趨勢評估,在市場趨勢中哪個是具有最大的成長可能性,哪個技術趨勢對市場帶來很大的影響的相關分析,以及各製造商開發方針檢討,再加上風力發電的成本相關資料,其他的發電方式和安裝成本和電力成本的比較,為您概述為以下內容。
第1章 執行摘要
- 海上風力發電序論
- 海上風力資源
- 海上風力發電技術
- 陸上的供電
- 環境的,法律的,以及政治的注意點
- 海上風力發電的成本
- 海上風力發電的未來
第2章 關於作者
第3章 海上風力發電序論
- 概要
- 海上風力發電序論
- 海上風力利用的歷史
- 該報告內容架構
第4章 海上風力資源
- 概要
- 全球海上風力利用可能性
- 從各地區來看海上風力利用未來性
第5章 海上風力發電技術
- 概要
- 標準的海上風力發電發電機
- 發電機尺寸
- 發電機開發
- 驅動系統及引擎艙
- 塔
- 基礎及水面下結構
- 作為選擇的磁懸浮風力發電機
- 排列上的課題
- 建築基本設備的開發
- 可靠性及狀態監視
- 供應鏈
- 海上風力發電成本
第6章 陸上的供電
- 概要
- 電網問題
- 每個風力發電設備的解決方案
- 海上供電路的資金籌措
- 海上電網
- 超級電網
- 北海超級電網的形式
- 超級電網組成因素及技術必要條件
- 北海超級電網的擴張
第7章 環境的,法律的,以及政治的注意點
- 概要
- 海上風力發電設備備的環境的影響
- 建築方法與海底的影響
- 人的影響
- 海洋動物及對其他動物的影響
- 船舶交通及漁業
- 健康及安全相關的課題
- 海上風力發電設備建築的財政支援
- 海上風力發電設備相關法規
- 海上電網: 資金籌措和相關法規上的課題
第8章 海上風力發電的成本
第9章 海上風力發電的未來
- 概要
- 發電不同技術設備投資成本
- 均衡發電成本比較
- 海上風力發電電力數量的成長可能性
- 海上風力發電的未來
Description
INTRODUCTION
Offshore wind power is one of the newest major sources of renewable electricity generation to be developed and also one of the most interesting. Its history is short, no more than 20 years, and yet over that period the technology has been able to establish itself as both viable and potentially profitable.
FEATURES AND BENEFITS
- Realize up to date competitive intelligence through a comprehensive review of offshore wind power generation technologies concepts.
- Assess the emerging trends in offshore wind power generation technologies.
- Identify which key trends will offer the greatest growth potential and learn which technology trends are likely to allow greater market impact.
- Compare how manufacturers are developing offshore wind power generation technologies.
- Quantify costs of offshore wind power generation technologies, with comparisons against forms of power, installation costs, and cost of electricity.
HIGHLIGHTS
In Europe, by the middle of 2011, there were 1,247 offshore wind turbines across nine countries, 49 wind farms with an aggregate capacity of 3,294MW. Based on satellite data, offshore wind energy could provide up to 15% of global energy demand.
Today most wind farms are built in water depths or around 25m or less and few exceed 50m. Regions of highest wind energy can potentially provide between 500W/m2 and 800W/m2.
Overall unconstrained wind energy potential in Europe including both onshore and offshore was 70,000TWh, more than 20 times the expected energy demand in 2020. Of this, 25,000TWh was is offshore.
YOUR KEY QUESTIONS ANSWERED
- What are the drivers shaping and influencing offshore wind power generation technology development in the electricity industry?
- What does offshore wind power generation cost? What will it cost in the future?
- Which offshore wind power generation technology types will be the winners and which the losers in terms power generated, cost and viability?
- Which offshore wind power generation technology types are likely to find favor with manufacturers moving forward?
- Which emerging technologies are gaining in popularity and why?
Table of Contents
Executive Summary
- An introduction to offshore wind power generation
- The offshore wind resource
- Offshore wind technology
- Getting the power ashore
- Environmental, legislative and political issues
- The cost of offshore wind power
- The future of offshore wind power
Dr Paul Breeze
An introduction to offshore wind power
- Summary
- An introduction to offshore wind power
- Offshore wind history
- The structure of the report
The offshore wind resource
- Summary
- Global offshore potential
- Regional offshore wind potential
Offshore wind technology
- Summary
- Introduction
- Typical offshore wind turbine
- Turbine size
- Turbine development
- Drive trains and nacelles
- Towers
- Foundations and underwater structures
- Alternative floating wind turbine options
- Array issues
- Construction infrastructure development
- Reliability and condition monitoring
- The supply chain
- Offshore wind costs
Getting the power ashore
- Summary
- The grid problem
- The farm-by-farm solution
- Financing offshore transmission links
- Offshore grids
- Supergrids
- The shape of the North Sea supergrid
- Supergrid components and technical requirements
- Extension of the North Sea supergrid
Environmental, legislative and political issues
- Summary
- The environmental impact of offshore wind farms
- Construction and sea bed effects
- Human impact
- Impact on marine and other animal life
- Shipping and fishing
- Health and safety issues
- Financial support for offshore wind farm construction
- Offshore wind farm regulatory issues
- The offshore grid: funding and regulatory issues
The cost of offshore wind power
- Summary
- Capital cost breakdown
- Capital costs
- The levelized cost of electricity
- Supergrid costs
The future of offshore wind power
- Summary
- Introduction
- The capital cost of power generation technologies
- Levelized cost comparisons
- Offshore wind capacity growth potential
- The future of offshore wind power
Appendix
