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市場調查報告書

海底供電的全球市場預測 - HVDC·HVAC海底電力電纜:需求促進要素·技術課題·潛力計劃·主要企業

Submarine Electricity Transmission - HVDC and HVAC Submarine Power Cables: Demand Drivers, Technology Issues, Prominent Projects, Key Industry Players and Global Market Forecasts

出版商 Navigant Research 商品編碼 205764
出版日期 內容資訊 英文 69 Pages; 38 Tables, Charts & Figures
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海底供電的全球市場預測 - HVDC·HVAC海底電力電纜:需求促進要素·技術課題·潛力計劃·主要企業 Submarine Electricity Transmission - HVDC and HVAC Submarine Power Cables: Demand Drivers, Technology Issues, Prominent Projects, Key Industry Players and Global Market Forecasts
出版日期: 2015年06月23日 內容資訊: 英文 69 Pages; 38 Tables, Charts & Figures
簡介

HVDC(高壓直流供電)及HVAC(高壓交流供電)海底供電系統是規模很大專門性高的市場。在歐洲供電系統與煤炭·核能發電廠的廢除及其他遠處的海上地區一樣,由於北歐地區海上·境內風力發電的急速成長,而必須大規模重組·擴大。歐洲市場預測今後10年將佔全球海底電纜計劃的半數以上。全球海底供電市場預測將從2015年的168億美元,到2024年擴大到248億美元的規模。

本報告涵蓋全球高電壓海底電力電纜市場,概括市場趨勢,市場上供給阻礙因素及需求推動因素,法規及對策,以及市場課題,同時加上技術問題及市場預測,主要企業簡介等資訊,為您概述為以下內容。

第1章 摘要整理

第2章 市場課題

  • 簡介
  • 海底供電市場促進要素
    • 風力發電所和海上發電廠的連接
    • 國家與地區的電器電網的連接
    • HVAC及HVDC海底供電的受限地區
    • 各個島嶼與國家或地區供電網的連接
    • 州,國家,及地區電網互相連接的同步·安全性
    • 次市場的促進要素
  • 海底供電的法規和政策
    • 公海法規
    • 國家及地區組織
    • 海底供電相關法規的未來

第3章 技術問題

  • 海底電纜的簡介
  • 海底電纜技術
    • HVAC vs. HVDC技術
    • 變電站
  • 案例研究
  • 案例研究1:HVDC混合海底供電系統 - Nalcor Energy Lower Churchill Project
  • 案例研究2:HVDC海底供電系統 - Nordic/Baltic Connector
  • 案例研究3:HVDC混合海底/地下系統 - Central Hudson Project
  • 其他海底供電的利用案例
    • 雙向HVDC電纜的發展
    • 海上設施的電力供給
    • umbilical電纜
  • 海底電纜的種類
    • MI電纜
    • SCFF電纜
    • 押出隔熱電纜
  • 電纜的安裝和主要供電網的連接
    • 電纜安裝所採用的設備及技術
    • 電纜登陸與連接到供電網
  • 近未來的課題及發展
    • 現行計劃的諸技術普及度
    • 未來的發展

第4章 主要企業

  • 主要的HVDC系統供應商
    • ABB
    • Alstom
    • American Superconductor Corp.
    • Schweitzer Engineering Laboratories
    • Siemens
  • 電纜及設備廠商
    • LS Cable & System
    • LS Industrial Systems
    • Nexans
    • nkt cables
    • Prysmian SPA
  • 主要的供電業者及ISO/RTO
    • China Southern Power Grid Company, Ltd.
    • DONG Energy
    • EDP
    • E.ON
    • GDF SUEZ (now Engie)
    • Iberdrola
    • Korea Electric Power Corporation
    • Power Grid Corporation of India Ltd.
    • RWE Innogy
    • SGCC
    • Statnett
    • TenneT
    • Vattenfall

第5章 市場預測

  • 簡介·預測方法
  • 全球海底供電預測
    • 北美
    • 歐洲
    • 亞太地區
    • 其他:南美·中東·非洲
  • 結論·建議

第6章 企業目錄

第7章 縮寫及簡稱清單

第8章 目錄

第9章 圖表

第10章 調查範圍,資訊來源及調查手法,註記

圖表清單

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目錄
Product Code: SET-15

HVDC and HVAC Submarine Power Cables: Demand Drivers, Technology Issues, Prominent Projects, Key Industry Players, and Global Market Forecasts.

Submarine electricity transmission systems are increasingly used for long and short hauls in undersea, lake, and river interconnection applications, such as in the Hudson River in New York or for connecting offshore wind farms across Europe. As with overhead and underground systems, many high-voltage subsea systems are moving toward high-voltage direct current (HVDC) technology, away from the historically prevalent alternating current (AC) technology.

The market for HVDC and high-voltage alternating current (HVAC) submarine electricity transmission systems is large and highly specialized. Analysis of existing and planned systems indicates that the submarine transmission industry will continue to experience substantial growth for years to come. In Europe, the transmission system requires extensive reconfiguration and expansion to deal with coal and nuclear generation plant retirements and the rapid growth of offshore and onshore wind generation in the Nordic region, as well as in other remote offshore areas. The European market will likely account for more than half of the global submarine cable projects over the next decade. According to Navigant Research, the global submarine electricity transmission market is expected to grow from $16.8 billion in 2015 to $24.8 billion in 2024.

This Navigant Research report analyzes the global market for submarine electricity transmission systems. The study provides an analysis of the market issues, including market drivers and regulations and policies, associated with submarine electricity transmission projects. Global market forecasts for project value, segmented by technology and region, extend through 2024. The report also provides case studies and examines the key technologies related to submarine electricity transmission systems, as well as the competitive landscape.

Key Questions Addressed:

  • Which technologies represent the primary components of high-voltage direct current and alternating current (HVDC and HVAC) submarine electricity transmission systems?
  • What factors affect the implementation of the different submarine electricity transmission system technologies and which technologies are now obsolete?
  • How do the market trends and opportunities related to submarine electricity transmission systems vary by region?
  • What are the primary drivers for growth in the submarine electricity transmission system market?
  • How is the submarine electricity transmission system vendor landscape changing?

Table of Contents

1. Executive Summary

  • 1.1. Market Overview
  • 1.2. Key Trends and Market Drivers
  • 1.3. Market Forecast

2. Market Issues

  • 2.1. Introduction
  • 2.2. Submarine Transmission Market Drivers
    • 2.2.1. Connecting Wind Farms and Offshore Power Generation
    • 2.2.2. Connecting National and Regional Electric Grids
    • 2.2.3. Geographical Limitations to HVAC and HVDC Submarine Electricity Transmission
    • 2.2.4. Connecting Islands with National or Regional Electric Power Grids
    • 2.2.5. Interconnecting State, Country, and Regional Grids for Synchronization and Security
    • 2.2.6. Secondary Market Drivers
      • 2.2.6.1. Developing Regional Supergrids
      • 2.2.6.2. Industrial Applications for Offshore Facilities
  • 2.3. Submarine Electricity Transmission Regulations and Policies
    • 2.3.1. High Seas Regulation
    • 2.3.2. National and Regional Organizations
      • 2.3.2.1. North America
      • 2.3.2.2. Europe
    • 2.3.3. Cable Protection Committees
    • 2.3.4. The Future of Regulations for Submarine Electricity Transmission

3. Technology Issues

  • 3.1. Introduction to Submarine Cables
  • 3.2. Submarine Cable Technologies
    • 3.2.1. HVAC versus HVDC Technologies
    • 3.2.2. Converter Stations
  • 3.3. Case Studies
    • 3.3.1. Case Study 1: HVDC Hybrid Submarine Transmission System-Nalcor Energy's Lower Churchill Project
    • 3.3.2. Case Study 2: HVDC Submarine Transmission System-Nordic/Baltic Connector
    • 3.3.3. Case Study 3: HVDC Hybrid Submarine/Underground System-Central Hudson Project
  • 3.4. Other Submarine Electricity Transmission Use Cases
    • 3.4.1. Deploying Bidirectional HVDC Cables
    • 3.4.2. Power Supplies for Offshore Facilities
    • 3.4.3. Umbilical Cables
  • 3.5. Types of Submarine Cables
    • 3.5.1. Mass-Impregnated Cables
    • 3.5.2. Self-Contained Fluid-Filled Cables
    • 3.5.3. Extruded Insulation Cables
  • 3.6. Installation of Cables and Connection to Main Power Grids
    • 3.6.1. Equipment and Technologies Used to Install Cables
    • 3.6.2. Cable Landing and Connection to Power Grid
  • 3.7. Challenges and Developments on the Horizon
    • 3.7.1. Prevalence of Technologies in Current Projects
    • 3.7.2. Future Developments

4. Key Industry Players

  • 4.1. Major HVDC System Suppliers
    • 4.1.1. ABB
    • 4.1.2. Alstom
    • 4.1.3. American Superconductor Corp.
    • 4.1.4. Schweitzer Engineering Laboratories
    • 4.1.5. Siemens
  • 4.2. Cable and Equipment Vendors
    • 4.2.1. LS Cable & System
    • 4.2.2. LS Industrial Systems
    • 4.2.3. Nexans
    • 4.2.4. nkt cables
    • 4.2.5. Prysmian SPA
  • 4.3. Key Transmission Operators and ISOs/RTOs
    • 4.3.1. China Southern Power Grid Company, Ltd.
    • 4.3.2. DONG Energy
    • 4.3.3. EDP
    • 4.3.4. E.ON
    • 4.3.5. GDF SUEZ (now Engie)
    • 4.3.6. Iberdrola
    • 4.3.7. Korea Electric Power Corporation
    • 4.3.8. Power Grid Corporation of India Ltd.
    • 4.3.9. RWE Innogy
    • 4.3.10. SGCC
    • 4.3.11. Statnett
    • 4.3.12. TenneT
    • 4.3.13. Vattenfall

5. Market Forecasts

  • 5.1. Introduction and Forecast Approach
  • 5.2. Global Submarine Electricity Transmission Forecasts
    • 5.2.1. North America
    • 5.2.2. Europe
    • 5.2.3. Asia Pacific
    • 5.2.4. Rest of World: Latin America, Middle East, and Africa
  • 5.3. Conclusions and Recommendations

6. Company Directory

7. Acronym and Abbreviation List

8. Table of Contents

9. Table of Charts and Figures

10. Scope of Study, Sources and Methodology, Notes

List of Charts and Figures

  • Annual Submarine Electricity Transmission Project Value by Region, World Markets: 2015-2024
  • Cumulative Submarine Electricity Transmission Project Value by Region, World Markets: 2015-2024
  • Cumulative Submarine Electricity Transmission Project Value by Technology, World Markets: 2015-2024
  • Annual Submarine Electricity Transmission Project Value by Technology, North America: 2015-2024
  • Annual Submarine Electricity Transmission Project Value by Technology, Europe: 2015-2024
  • Annual Submarine Electricity Transmission Project Value by Technology, Asia Pacific: 2015-2024
  • Annual Submarine Electricity Transmission Project Value by Technology, Rest of World: 2015-2024
  • Annual Submarine Electricity Transmission Project Value by Technology, World Markets: 2015-2024
  • Horns Rev 1-3 Wind Turbine Cable Installation Schematic
  • European Submarine Supergrid
  • Ocean Jurisdictions by Distance from Shore
  • Current ENTSO-E Countries with TSOs in the European Market
  • Diagram of HVDC Submarine Cable System
  • Diagram of HVDC Light Converter Station
  • HVDC Submarine Electricity Transmission System-Labrador to Newfoundland Crossing
  • HVDC Submarine Electricity Transmission System-NordBalt Connector
  • Champlain Hudson Power Express Submarine HVDC System
  • Bidirectional Interconnection of Wind Turbines in the North Sea
  • Umbilical Cables Connected to Horns Rev 2 Wind Farm Transmission Station
  • Cross-Section of XLPE Submarine Power Cable
  • Prysmian's Giulio Verne Cable-Laying Ship
  • Cable-Laying Barge ATM Discoverer at Rhyl Flats Wind Farm
  • Submarine Power Cable Tow-Plough
  • Cable Jetting SmartJet Hydraulic Plough ROV
  • Submarine Cable Landing and Connection to Converter Stations

List of Tables

  • Annual Submarine Electricity Transmission Project Value by Region, World Markets: 2015-2024
  • Submarine Electricity Transmission Project Value Share by Region, World Markets: 2015 and 2024
  • Cumulative Submarine Electricity Transmission Project Value by Region, World Markets: 2015-2024
  • Annual Submarine Electricity Transmission Project Value by Technology, World Markets: 2015-2024
  • Cumulative Submarine Electricity Transmission Project Value by Technology, World Markets: 2015-2024
  • Annual Submarine Electricity Transmission Project Value by Technology, North America: 2015-2024
  • Cumulative Submarine Electricity Transmission Project Value by Technology, North America: 2015-2024
  • Annual Submarine Electricity Transmission Project Value by Technology, Europe: 2015-2024
  • Cumulative Submarine Electricity Transmission Project Value by Technology, Europe: 2014-2023
  • Annual Submarine Electricity Transmission Project Value by Technology, Asia Pacific: 2015-2024
  • Cumulative Submarine Electricity Transmission Project Value by Technology, Asia Pacific: 2015-2024
  • Annual Submarine Electricity Transmission Project Value by Technology, Rest of World: 2015-2024
  • Cumulative Submarine Electricity Transmission Project Value by Technology, Rest of World: 2014-2023
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