HVDC Transmission Market - By Technology (LCC/VSC), Configuration (Back To Back, Monopolar, Bipolar, Multi-Terminal), Power Rating (Below 500 MW, 501 MW - 999 MW, 1000 MW - 2000 MW & Above 2000 MW), Application, Component & Geography (2013 - 2018)

世界のHVDC(高圧直流送電)市場

◆タイトル:HVDC Transmission Market - By Technology (LCC/VSC), Configuration (Back To Back, Monopolar, Bipolar, Multi-Terminal), Power Rating (Below 500 MW, 501 MW - 999 MW, 1000 MW - 2000 MW & Above 2000 MW), Application, Component & Geography (2013 - 2018)
◆商品コード:SE 2096
◆調査・発行会社:MarketsandMarkets
◆発行日:2013年9月
◆ページ数:303
◆レポート形式:pdf / 英語
◆納品方法:Eメール
◆調査対象地域:グローバル
◆販売価格オプション(消費税別)
Single userUSD5,650 ⇒換算¥632,800見積依頼/購入/質問フォーム
Multi User(~5名)USD6,650 ⇒換算¥744,800見積依頼/購入/質問フォーム
Corporate licence(社内共有可) USD8,150 ⇒換算¥912,800見積依頼/購入/質問フォーム
販売価格オプションの説明はこちらでご利用ガイドはこちらでご確認いただけます。
※お支払金額は「換算金額(日本円)+消費税+配送料(Eメール納品は無料)」です。
※Eメールによる納品の場合、通常ご注文当日~2日以内に納品致します。
※商品の納品後、納品日+5日以内に請求書を発行し、お客様宛に郵送いたしますので、請求書発行日より2ヶ月以内に銀行振込にて支払をお願いします。(振込先:三菱東京UFJ銀行/京橋支店/H&Iグローバルリサーチ株式会社)
※上記の日本語題名はH&Iグローバルリサーチが翻訳したものです。英語版原本には日本語表記はありません。
※為替レートは適宜修正・更新しております。リアルタイム更新ではありません。
※ご購入後、レポートに記載の英語表現や単語の意味に関しましては無料でお答えいたします。(但し、対応範囲は弊社で判断)
※弊社H&Iグローバルリサーチ株式会社はMarketsandMarketsの日本における正規販売代理店です。

【レポートの概要】

本調査レポートでは、"世界のHVDC(高圧直流送電)市場"について調査・分析し、イントロダクション、エグゼクティブサマリー、市場概観、市場の成長要因、阻害要因、市場の機会と課題、バリューチェーン分析、市場の動態、技術別分析、用途別分析、市場規模及び予測、競争状況、市場シェア分析、主要企業(ベンダー)分析等の情報をお届けいたします。

The depleting conventional power generation has drawn attention towards exploring the new prospects of power generation sources. Across the globe power consumption, demand tends to increase in near future. The major economies such as China and India, are continuously striving to develop scope to generate power from new sources such as wind farms, solar panel and tidal to satiate the power consumption demand of the cities.

The increasing demand of electricity has laid enormous pressures on the existing infrastructure of the power generation capacity. Beside power generation, transmission loss is also one of the major concerns as heavy transmission losses are being incurred by the AC system. Hence, HVDC transmission becomes an interesting preposition across the globe due to its lower transmission losses, asynchronous interconnection and the capability to deliver bulk power for long distance transmission.

High voltage direct current grid is a main step towards power generation from the renewable sources. The growing need for integrated network, transmit bulk power generated from the remotely located renewable sources and interconnection with the neighboring grids are the key driver of the HVDC market. The Global market is expected to grow at a CAGR of 16.97% in the next five years (2013-2018).

Some of the major companies dominating the global HVDC market are ABB (Switzerland) Siemens (Germany), Alstom (France), Toshiba (Japan), and others. ABB (Switzerland) and Siemens (Germany) are the key players of power generation and transmission market and it is found that these companies covers more than 80% of the overall market share in the global HVDC market.

Need for reliable transmission and increasing growth of interconnection among neighboring network are also boosting the adoption of HVDC. The connecting wind farms are also been a key factor that impacts the adoption of HVDC as often as the offshore plant located distantly and generates a constant high voltage. The high power transmission from offshore plant to the load centers needs an efficient, reliable system. HVDC has the ability to carry high voltage power over long distances with low transmission loss. It is believed that wind application will be the factor that will impact the HVDC market most.

In-depth competitive landscape for each player and market share has been given in the report along with geographic analysis for HDVC transmission market, covering the major regional markets, viz. Americas, Europe, Asia-Pacific, and Rest of the World (ROW). Some of the major contracts, agreements, major acquisitions, collaborations, and partnerships that boost the HVDC transmission are discussed in the report.

Scope of the report

This research report categorizes the market based on various applications, technology, power rating, configuration, component, and geography; it also covers the revenue foretold from 2013 to 2018. It describes the demand for HVDC in various regions. The report describes the applications mapping in the HVDC transmission market with respect to the growth potential.

On the basis of the applications

HVDC are used for various applications such as underground power links, interconnecting networks, powering island and remote loads, connecting wind farms and oil and gas offshore, Connecting wind farms and interconnecting networks are the major application of the HVDC transmission.

On the basis of the Technologies

In this research report HVDC technology is segregated into line commutated converters and voltage source converters. The power electronic in this space has shown real prospects of high voltage transmission. The technical innovation in converter sphere allows power transmission from the remote offshore platforms and wind farms to the onshore.

On the basis of the configuration

The configurations used in HVDC are back to back, monopolar, bipolar and multi-terminal. The bipolar configuration widely adopted due to harness power from renewable energy sources and efficiently transporting power generated from renewable sources requires advance and technical equipped technology.

On the basis of the power rating

The HVDC power rating includes below 500 MW, 500 MW-999 MW, 1000 MW -2000 MW and above 2000 MW. The high MW power projects are being commissioned to meet the power needs of urban cities.

On the basis of the component

The report includes the various component used in HVDC grids are thyristor, IGBT (insulated bipolar transistor), smoothing reactor, surge arrester, converter transformer, DC transmission, harmonic filters and control & protection.

On the basis of the geographical regions

Geographical analysis covers Americas, Europe, Asia-Pacific, and ROW. In this report, APAC is leading the global HVDC market because of the development in power infrastructure in countries like China and India. APAC is followed by the European region where they are planning to integrate the renewable energy sources such as wind power and solar power grids. The need of transmission lines interconnection for more efficient power and energy use is also driving the growth of HVDC in this region.

【レポートの目次】

Table of Contents

1 Introduction (Page No. – 20)
1.1 Key Take-Aways
1.2 Report Description
1.3 Markets Covered
1.4 Stakeholders
1.5 Research Methodology
1.5.1 Market Size
1.5.2 Market Crackdown
1.5.3 Key Data Points Taken From Secondary Sources
1.5.4 Key Data Points Taken From Primary Sources
1.5.5 List Of Companies Covered During Study
1.5.6 Assumptions

2 Executive Summary (Page No. – 32)

3 Market Overview (Page No. – 36)
3.2 Introduction
3.2.1 Market Definition
3.2.2 Market Segmentation
3.2.3 History And Evolution Of High Voltage Direct Current
3.2.4 Advantages And Disadvantages Of HVDC Transmission
3.2.5 Market Dynamics
3.2.5.1 Driver
3.2.5.1.1 Increasing Number Of Offshore Wind Farm
3.2.5.1.2 Increase In Government Incentivization To Establish HVDC Transmission
3.2.5.1.3 High Demand For Connecting Asynchronous Grids
3.2.5.1.4 Increasing Stability And Low Transmission Losses
3.2.5.2 Restraints
3.2.5.2.1 High Cost Of HVDC Components
3.2.5.2.2 High Investment In Establishing HVDC Transmission
3.2.5.2.3 Lack Of Standardization
3.2.5.3 Opportunities
3.2.5.3.1 Challenge Towards De-Carbonization Of Power System
3.2.5.3.2 Ageing Power Infrastructure
3.2.6 Burning Issues
3.2.6.1 Hybrid Circuit Breaker To Integrate Renewable Energy Into Electric Energy
3.2.6.2 High-Tech Power Grid Will Increase Power Trading Among The Neighboring Nations
3.2.7 Winning Imperatives
3.2.7.1 Increasing Interoperability Among The Neighboring Network
3.2.8 Cost Analysis
3.2.9 Porter’s Five Forces Model
3.2.9.1 Degree Of Competition
3.2.9.2 Bargaining Power Of Buyers
3.2.9.3 Bargaining Power Of Suppliers
3.2.9.4 Threat From Substitutes
3.2.9.5 Threat From New Entrants
3.2.10 Value Chain Analysis

4 Technology Market (Page No. – 64)
4.1 Introduction
4.1.1 Line Commutated Converter
4.1.1.1 Advantages Of Line Commutated Converters
4.1.1.2 Lcc Reference Projects
4.1.1.3 Major Companies
4.1.2 Capacitor Commutated Converter
4.1.2.1 Advantages Of Capacitor Commutated Converter
4.1.2.2 CCC Reference Projects
4.1.2.3 Major Companies
4.1.3 Voltage Source Converter
4.1.3.1 Advantages Of Vsc Based Converter
4.1.3.2 Vsc Based Reference Projects
4.1.3.3 Major Companies
4.1.4 Comparative Analysis Of Technologies

5 Configuration Market (Page No. – 84)
5.1 Introduction
5.1.1 Back To Back
5.1.1.1 Project Based On Back To Back Configuration
5.1.1.2 Advantages Of Back To Back Configuration
5.1.2 Monopolar Configuration
5.1.2.1 Project Based On Monopolar Configuration
5.1.2.2 Advantages Of Monopolar Configuration
5.1.2.3 Monopolar Ground Return
5.1.2.4 Monopolar Metallic Return
5.1.3 Bipolar
5.1.3.1 Bipolar With Ground Return Path
5.1.3.2 Bipole With Dedicated Metallic Return Path
5.1.3.3 Bipole Without Dedicated Return Path
5.1.3.4 Advantages Of Bipolar Configuration
5.1.3.5 Project Based On Bipolar Configuration
5.1.4 Multi-Terminal
5.1.4.1 Advantages Of Bipolar Configuration
5.1.4.2 Project Based On Multi-Terminal Configuration

6 Component Market (Page No. – 111)
6.1 Introduction
6.1.1 Thyristor Valves
6.1.1.1 Light Triggered Thyristor
6.1.1.2 Major Playersin Thyristors
6.1.2 Converter Transformer
6.1.2.1 Function Of Converter Transformer
6.1.2.2 Major Players In Converter Transformer
6.1.3 Smoothing Reactor
6.1.3.1 Function Of Smoothing Reactors
6.1.3.2 Major Players In Smoothing Reactors
6.1.4 Surge Arrester
6.1.5 Harmonic Filters
6.1.5.1 Operation of Harmonic Filters
6.1.5.2 AC Harmonic Filter
6.1.5.3 DC Harmonic Filters
6.1.5.4 Active Harmonic Filters
6.1.6 DC Transmission Circuit
6.1.6.1 DC Cable
6.1.6.1.1 Extruded Cables
6.1.6.1.2 Mass Impregnated Insulated Subsea Cables
6.1.6.1.3 Overhead Cables
6.1.6.2 Major Players in Cables
6.1.6.3 DC Switch
6.1.6.4 Earth Electrode
6.1.7 DC Breaker
6.1.7.1 Significance of DC Breaker in Power Transmission
6.1.7.2 Major Companies in HVDC Breaker
6.1.8 Control & Protection
6.1.8.1 Function Of Control & Protection
6.1.8.2 Major Players In Control Protection

7 Applications Market (Page No. – 129)
7.1 Introduction
7.1.1 Underground Power Links
7.1.2 Powering Island And Remote Loads
7.1.3 Connecting Wind Farms
7.1.4 Interconnecting Networks
7.1.5 Oil & Gas Offshore

8 Powere Rating Market (Page No. – 152)
8.1 Introduction
8.1.1 Below 500 Mw
8.1.1.1 Reference Projects Under 500 Mw
8.1.2 501 Mw-999 Mw
8.1.2.1 Reference Projects Under 501 Mw-999 Mw
8.1.3 1000 Mw- 2000 Mw
8.1.3.1 Reference Projects 1000 Mw-2000 Mw
8.1.4 Above 2000 Mw
8.1.4.1 Reference Projects Above 2000 Mw

9 By Geography (Page No. – 167)
9.1 Introduction
9.1.1 Americas
9.1.1.1 Americas Significant Growth Seen Due To Power Infrastructure Development
9.1.2 Europe
9.1.2.1 Germany Needs to Expand and Upgrade their Power System to Cope with Renewable Supply Share
9.1.3 APAC
9.1.3.1 Increasing Power Demand in Emerging Economies
9.1.4 ROW

10 Competitive Landscape (Page No. – 184)
10.1 Introduction
10.1.1 Key Growth Strategies
10.1.2 Market Share Analysis
10.1.3 Mergers And Acquisitions
10.1.4 New Product Developments
10.1.5 Partnerships And Agreements
10.1.6 Contracts
10.1.7 Others (Awards, Geography Expansion, Milestone)

11 Company Profiles (Overview, Products And Services, Financials, Strategy & Development)* (Page No. – 207)
11.1 ABB
11.2 Adani Power Limited
11.3 Aecom Technology
11.4 aeg Power Solutions
11.5 Alstom SA
11.6 Crompton Greaves
11.7 DNV kema
11.8 Energinet
11.9 Epcos ag
11.10 General Electric
11.11 Hitachi
11.12 Kalpataru Power Transmission
11.13 National Grid
11.14 Nexans S.A.
11.15 Nextek Power Systems
11.16 Prysmian Group
11.17 Schneider Electric SA
11.18 Siemens Energy
11.19 Toshiba Corp.
11.20 Transgrid Solutions

*Details On Overview, Products And Services, Financials, Strategy & Development Might Not Be Captured In Case Of Unlisted Companies.

List Of Tables (117 Tables)

Table 1 Global HVDC Market Revenue, By Configuration, 2012-2018 ($Million)
Table 2 Global HVDC Market Revenue, By Power Rating, 2012-2018 ($Million)
Table 3 Global HVDC Market, By Technology, 2012 - 2018 ($Million)
Table 4 Global HVDC Lcc Market, By Configuration, 2012 - 2018 ($Million)
Table 5 Global HVDC Lcc Market, By Power Rating, 2012 - 2018 ($Million)
Table 6 Global HVDC Lcc Market, By Application, 2012 - 2018 ($Million)
Table 7 Global HVDC Lcc Market, By Geography, 2012 - 2018 ($Million)
Table 8 Global HVDC Vsc Market, By Configuration, 2012 - 2018 ($Million)
Table 9 Global HVDC Vsc Market, By Power Rating, 2012 - 2018 ($Million)
Table 10 Global HVDC Vsc Market, By Application, 2012 - 2018 ($Million)
Table 11 Global HVDC Vsc Market, By Geography, 2012 - 2018 ($Million)
Table 12 Comparative Analysis Of Lcc & Vsc HVDC Converter Technologies
Table 13 Back To Back Configuration Market Revenue, By Technology, 2012 - 2018 ($Million)
Table 14 Back To Back Configuration Market Revenue, By Application, 2012 - 2018 ($Million)
Table 15 Back To Back Configuration Market Revenue, By Power Rating, 2012 - 2018 ($Million)
Table 16 Back To Back Configuration Market Revenue, By Geography, 2012 - 2018 ($Million)
Table 17 Monopolar Commissioned Project In Various Region
Table 18 Global HVDC Transmission Monopolar Configuration Market Revenue, By Technology, 2012 - 2018 ($Million)
Table 19 Monopolar Configuration Market Revenue, By Application, 2012 - 2018 ($Million)
Table 20 Monopolar Configuration Market Revenue, By Power Rating, 2012 - 2018 ($Million)
Table 21 Monopolar Configuration Market Revenue, By Geography, 2012 - 2018 ($Million)
Table 22 Monopolar Commissioned Project In Various Region
Table 23 Global HVDC Transmission Bipolar Configuration Market Revenue, By Technology 2012 - 2018 ($Million)
Table 24 Bipolar Configuration Market Revenue, By Application, 2012 - 2018 ($Million)
Table 25 Bipolar Configuration Market Revenue, By Power Rating, 2012 - 2018 ($Million)
Table 26 Bipolar Configuration Market Revenue, Geography, 2012 - 2018 ($Million)
Table 27 Monopolar Commissioned Project In Various Region
Table 28 Global HVDC Transmission Multi-Terminal Configuration Market Revenue, By Technology, 2012 - 2018 ($Million)
Table 29 Global HVDC Transmission Multi-Terminal Configuration Market Revenue, By Application, 2012 - 2018 ($Million)
Table 30 Global HVDC Transmission Multi-Terminal Configuration Market Revenue, By Power Rating, 2012 - 2018 ($Million)
Table 31 Global HVDC Transmission Multi-Terminal Configuration Market Revenue, By Geography, 2012 - 2018 ($Million)
Table 32 Multi-Terminal Commissioned Project In Various Region
Table 33 Global HVDC Transmission Component Market Revenue, 2012-2018 ($Million)
Table 34 Below 500 Mw: Global HVDC Transmission Component Market Revenue, 2012 - 2018 ($Million)
Table 35 501 Mw - 999 Mw: Global HVDC Transmission Market Revenue, 2012 - 2018 ($Million)
Table 36 1000 Mw - 2000 Mw: Global HVDC Transmission Market Revenue, 2012 - 2018 ($Million)
Table 37 Above 2000 Mw: Global HVDC Transmission Market Revenue, 2012 - 2018 ($Million)
Table 38 Function Of Converter Transformer
Table 39 Functions Of Smoothing Reactor
Table 40 Function Of Controls & Protection
Table 41 Global HVDC Transmission Market Revenue, By Application, 2012 - 2018 (Million)
Table 42 Global HVDC Transmission Market Revenue, For Underground Power Link, By Configuration, 2012 - 2018 ($Million)
Table 43 Market Revenue, For Underground Power Link, By Technology, 2012-2018 ($Million)
Table 44 Market Revenue, For Underground Power Link, By Power Rating, 2012 - 2018 ($Million)
Table 45 Market Revenue, For Underground Power Link, By Geography, 2012 - 2018 ($Million)
Table 46 Global HVDC Transmission Market Revenue, For Powering Island & Remote Loads, By Configuration, 2012 - 2018 ($Million)
Table 47 Market Revenue, For Powering Island & Remote Loads, By Technology, 2012 - 2018 ($Million)
Table 48 Market Revenue, For Powering Island & Remote Loads, By Power Rating, 2012 - 2018 ($Million)
Table 49 Market Revenue, For Powering Island & Remote Loads, By Geography, 2012 - 2018 ($Million)
Table 50 Global HVDC Transmission Market Revenue, For Connecting Wind Farms, By Configuration, 2012 - 2018 ($Million)
Table 51 Global HVDC Transmission Market Revenue, For Connecting Wind Farms, By Technology, 2012-2018 ($Million) Table 52 Global HVDC Transmission Market Revenue, For Connecting Wind Farms, By Power Rating, 2012 - 2018 ($Million)
Table 53 Global HVDC Transmission Market Revenue, For Connecting Wind Farms, By Geography, 2012 - 2018 ($Million)
Table 54 Global HVDC Transmission Market Revenue, For Interconnecting Networks, By Configuration, 2012 - 2018 ($Million)
Table 55 Global HVDC Transmission Market Revenue, For Interconnecting Networks, By Technology, 2012 - 2018 ($Million)
Table 56 Global HVDC Transmission Market Revenue, For Interconnecting Networks, By Power Rating, 2012 - 2018 ($Million)
Table 57 Global HVDC Transmission Market Revenue, For Interconnecting Networks, By Geography, 2012 - 2018 ($Million)
Table 58 Global HVDC Transmission Market Revenue, For Oil & Gas Offshore, By Configuration, 2012 - 2018 ($Million)
Table 59 Global Market Revenue, For Oil & Gas Offshore, By Technology, 2012 - 2018 ($Million)
Table 60 Global Market Revenue, For Oil & Gas Offshore, By Power Rating, 2012 - 2018 ($Million)
Table 61 Global Revenue, For Oil & Gas Offshore, By Geography, 2012 - 2018 ($Million)
Table 62 Below 500 Mw: Global HVDC Market Revenue, By Configuration, 2012 - 2018 ($Million)
Table 63 Below 500 Mw: Global HVDC Market Revenue, By Technology, 2012 - 2018 ($Million)
Table 64 Below 500 Mw: HVDC Project
Table 65 501 Mw - 999 Mw: Global HVDC Market Revenue, By Configuration, 2012 - 2018 ($Million)
Table 66 501 Mw - 999 Mw: Global HVDC Market Revenue, By Technology, 2012 - 2018 ($Million)
Table 67 501 Mw –999 Mw : HVDC Project
Table 68 1000 Mw - 2000 Mw: Global HVDC Market Revenue, By Configuration, 2012 - 2018 ($Million)
Table 69 1000 Mw - 2000 Mw: Global HVDC Market Revenue, By Technology, 2012 - 2018 ($Million)
Table 70 1000 Mw –2000 Mw : HVDC Project
Table 71 Above 2000 Mw: Global HVDC Market Revenue, By Configuration, 2012 - 2018 ($Million)
Table 72 Above 2000 Mw: Global HVDC Market Revenue, By Technology 2012 - 2018 ($Million)
Table 73 Above 2000 Mw : HVDC Project
Table 74 Global HVDC Transmission Market Revenue, By Geography, 2012 - 2018 (Million)
Table 75 Americas: HVDC Transmission Market Revenue, By Configuration, 2012 - 2018 (Million)
Table 76 Americas: Market Revenue, By Technology, 2012-2018 (Million)
Table 77 Americas: Market Revenue, By Application, 2012 - 2018 (Million)
Table 78 Europe: HVDC Transmission Market Revenue, By Configuration, 2012 - 2018 (Million)
Table 79 Europe: Market Revenue, By Technology, 2012 - 2018 (Million)
Table 80 Europe: Market Revenue, By Application, 2012 - 2018 (Million)
Table 81 APAC: HVDC Transmission Market Revenue, By Configuration, 2012 - 2018 (Million)
Table 82 APAC: Market Revenue, By Technology, 2012 - 2018 (Million)
Table 83 APAC: Market Revenue, By Application, 2012 - 2018 (Million)
Table 84 ROW: HVDC Transmission Market Revenue, By Configuration, 2012 - 2018 (Million)
Table 85 ROW: Market Revenue, By Technology, 2012 - 2018 (Million)
Table 86 ROW: Market Revenue, Application, 2012 - 2018 (Million)
Table 87 Mergers And Acquisitions
Table 88 New Product Developments
Table 89 Partnerships And Agreements
Table 90 Contracts
Table 91 Others (Awards, Geography Expansion, Milestone)
Table 92 ABB: Overall Revenue, 2010-2012 ($Billion)
Table 93 ABB: Market Revenue, By Product Segments, 2010 - 2012 ($Billion)
Table 94 Adani Power: Overall Market Revenue, 2011-2012 ($Million)
Table 95 Aecom Technology: Overall Revenue, 2011-2012 ($Million)
Table 96 Aecom Technology: Overall Revenue, By Geography, 2011 - 2012 ($Million)
Table 97 AEG Power Solutions: Overall Revenue, 2011 - 2012 ($Million)
Table 98 Alstom: Overall Revenue, 2010-2012 ($Billion)
Table 99 Alstom: Overall Revenue, By Geography, 2010-2012 ($Million)
Table 100 Crompton Greaves: Overall Revenue, 2011-2012 ($Million)
Table 101 Crompton Greaves: Geographical Financial Statistics, 2011-2012 ($Million)
Table 102 DNV Kema: Overall Revenue, 2011 - 2012 ($Million)
Table 103 DNV Kema: Overall Revenue, By Geography, 2011 - 2012 ($Million)
Table 104 Energinet: Overall Revenue, 2011-2012 ($Million)
Table 105 TDK Corporation: Overall Revenue, 2011-2012 ($Million)
Table 106 GE: Overall Revenue, 2011 - 2012 ($Billion)
Table 107 GE, Market Revenue, By Operating Segments, 2011-2012 ($Billion) 256
Table 108 GE: Market Revenue, By Geography, 2011 - 2012 ($Billion)
Table 109 Hitachi: Overall Revenue, 2011 - 2012 ($Billion)
Table 110 Kalpatru Power Transmission: Overall Revenue, 2011 - 2012 ($Billion)
Table 111 National Grid: Overall Revenue, 2011 - 2012 ($Billion)
Table 112 National Grid: Overall Revenue, By Geography, 2011 - 2012 ($Million)
Table 113 Nexans: Overall Revenue, 2011-2012 ($Million)
Table 114 Prysmian Group: Overall Revenue, 2011 - 2012 ($Million)
Table 115 Schneider Electric: Overall Revenue, 2011-2012 ($Billion)
Table 116 Siemens: Overall Revenue, 2011 - 2012 ($Billion)
Table 117 Toshiba: Overall Revenue, 2011 - 2012 ($Billion)

List of Figures (55 Figures)

Figure 1 Overview Of HVDC Transmission Market
Figure 2 Research Methodology
Figure 3 Global HVDC Transmission Market Research Strategy
Figure 4 Global HVDC Transmission Market Crack Down Strategy
Figure 5 Global HVDC Transmission Market Revenue, 2012-2018 ($Billion)
Figure 6 World Energy Consumption In Quadrillion British Thermal Unit, (2012-2018)
Figure 7 Global Net Electricity Generation, By Energy Sources, 2010 - 2040 (In %)
Figure 8 Market Segmentation
Figure 9 Chronological Development In HVDC
Figure 10 Impact Analysis Of The Drivers
Figure 11 Annual Installation Projection In Wind Farms Capacity (Gw)
Figure 12 Impact Analysis Of Restraints
Figure 13 Cost Break-Up Of HVDC Transmission
Figure 14 Cost Break-Up By Various Power Rating
Figure 15 Overall Porter’s Five Forces Analysis
Figure 16 Degree Of Competition In The HVDC Market
Figure 17 Bargaining Power Of The Buyers In The HVDC Market
Figure 18 Bargaining Power Of The Suppliers In The HVDC Market
Figure 19 Threat From Substitutes In The HVDC Market
Figure 20 Threat Of New Entrants In The HVDC Market
Figure 21 HVDC Transmission Market-By Technology
Figure 22 LCC Converter In HVDC Transmission System
Figure 23 HVDC Capacitor Commutated Converter
Figure 24 Vsc Based HVDC System
Figure 25 HVDC Transmission Configuration
Figure 26 Global HVDC Transmission Market Revenue, By Configuration, 2012-2018 ($Billion)
Figure 27 Circuit Diagram Of Back To Back Configuration
Figure 28 Circuit Diagram Of Monopolar Configuration
Figure 29 Circuit Diagram Of Monopolar Ground Return
Figure 30 Circuit Diagram Of Monopolar Metallic Return
Figure 31 Circuit Diagram Of Bipolar Configuration
Figure 32 Circuit Diagram Of Multi Terminal
Figure 33 Major Components Of HVDC Transmission
Figure 34 HVDC Transmission Market By Application
Figure 35 Global HVDC Market By Power Rating
Figure 36 Global HVDC Market Revenue, By Power Rating, 2012 - 2018 ($Billion)
Figure 37 HVDC Transmission Market, By Geography
Figure 38 Key Growth Strategies
Figure 39 Market Share Analysis Of HVDC Transmission, 2012
Figure 40 ABB: Swot Analysis
Figure 41 Major Business Segments
Figure 42 Alstom SA : Swot Analysis
Figure 43 Crompton Greaves: Revenue By Business Segments, 2012 (%)
Figure 44 DNV Kema: Overall Revenue, By Business Segments, 2011 - 2012 ($Million)
Figure 45 Major Operating Segments
Figure 46 GE: Swot Analysis
Figure 47 Hitachi: Overall Revenue, By Business Segment, 2012 (%)
Figure 48 National Grid: Overall Revenue, By Business Segments, 2011 - 2012 (%)
Figure 49 Nexans: Overall Revenue, By Business Segments, 2012 ($Million)
Figure 50 Nexas: Overall Revenue, By Geography, 2012 (%)
Figure 51 Technology Portfolio
Figure 52 Schneider Electric: Swot Analysis
Figure 53 Siemens: Revenue By Business Segments, 2012
Figure 54 Siemens Energy: Swot Analysis
Figure 55 Major Service Segments

★調査レポート[世界のHVDC(高圧直流送電)市場] ( HVDC Transmission Market - By Technology (LCC/VSC), Configuration (Back To Back, Monopolar, Bipolar, Multi-Terminal), Power Rating (Below 500 MW, 501 MW - 999 MW, 1000 MW - 2000 MW & Above 2000 MW), Application, Component & Geography (2013 - 2018) / SE 2096) 販売に関する免責事項
[世界のHVDC(高圧直流送電)市場] ( HVDC Transmission Market - By Technology (LCC/VSC), Configuration (Back To Back, Monopolar, Bipolar, Multi-Terminal), Power Rating (Below 500 MW, 501 MW - 999 MW, 1000 MW - 2000 MW & Above 2000 MW), Application, Component & Geography (2013 - 2018) / SE 2096) についてEメールでお問い合わせ


◆H&Iグローバルリサーチ株式会社のお客様(例)◆