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目次

この調査レポートは、世界のスマートグリッド技術とアプリケーションの市場を調査し、市場や技術の動向分析、関連企業情報、将来予測などを掲載しています。

This Pike Research report analyzes the global market for Smart Grid technologies and applications, including advanced metering infrastructure, transmission upgrades, substation automation, distribution automation, energy management systems, and electric vehicle management, among others.

The electrical grid stands tall as a marvel of the 20th century, with high levels of reliability and the capability to deliver nearly ubiquitous electricity to the industrialized world. Widely available electricity has served as the foundation for numerous technological innovations that shape modern society. The grid is a highly complex network with millions of miles of distribution lines, yet despite the critical role it plays, there is relatively little intelligence within this network.

The key market motivators driving the Smart Grid buildout fall into four categories: improved reliability and security, improving operating efficiencies and costs, balancing power generation supply and demand, and reducing the overall electrical system’s impact on climate change. Barriers to this transformation go well beyond pure technical and economic issues, including a lack of common vision and standards, outdated and fragmented business and regulatory models, and lack of awareness (and often trust) of the consuming public. However, government and industry bodies are coming together with urgency to drive the industry forward. Pike Research forecasts that Smart Grid infrastructure, including grid automation upgrades as well as smart metering, represents a huge market opportunity and will attract $200 billion in worldwide investment between 2008 and 2015.

This Pike Research report analyzes the global market for Smart Grid technologies and applications, including advanced metering infrastructure, transmission upgrades, substation automation, distribution automation, energy management systems, and electric vehicle management, among others. The report examines utility business models, regulatory factors, technology issues related to smart grid networking and other areas, and the dynamics of end-user demand. It includes profiles and analysis of 70 key players in the rapidly evolving Smart Grid industry ecosystem, as well as detailed global market forecasts through 2015, segmented by region and application.

Key questions addressed:

• What is the definition of the Smart Grid from the perspectives of technology, functionality, and applications?
• What are the key policy, technology, and economic issues that will influence the development of the Smart Grid market?
• What are the key Smart Grid technologies, and how will they evolve?
• How will Smart Grid deployments differ around the world?
• Who are the key Smart Grid industry players, and how do they relate to each other?
• How large is the global Smart Grid market opportunity, and how will it be segmented by region and application?
• What are consumer attitudes and preferences regarding key applications such as Energy Information Displays and Demand Response?

Who needs this report?

• Smart Grid hardware and software vendors
• Electric utilities
• Networking and telecommunications vendors
• Energy Management hardware and software vendors
• Smart Meter manufacturers
• Semiconductor and component suppliers
• Investment community
• Government agencies
• Non-profit organizations and advocacy groups

Table of Contents

詳細資料は、お問い合わせフォームから請求してください。

1. Executive Summary 

2. Market Issues

2.1 Introduction and Background
2.2 Market Drivers
2.2.1 Electricity Reliability and Security
2.2.2 Operating Cost Reductions
2.2.3 Electricity Supply ? Demand Gaps
2.2.4 Responding to Climate Change
2.3 Barriers to Smart Grid Deployment
2.4 American Recovery and Reinvestment Act
2.5 Smart Grid Definition
2.5.1 Functional Characteristics of the Smart Grid
2.5.2 Inventory of Smart Grid Technologies
2.5.2.1 Advanced Metering Infrastructure / Smart Meters
2.5.2.2 Wide Area Networking Communications Technologies
2.5.2.3 Home Area Networking technologies
2.5.2.4 Sensor Networking Technologies
2.5.2.5 Demand Response Systems
2.5.2.6 Distribution Automation Systems
2.5.2.7 Substation Automation Systems
2.5.2.8 Advanced Transmission Systems
2.5.2.9 Energy Storage
2.5.2.10 Vehicle-to-Grid Charging Infrastructure for Plug-in Hybrid Electric Vehicles
2.5.3 Key Applications for Smart Grid Technologies
2.5.3.1 Customer Monitoring and Control of Energy Usage
2.5.3.2 Time of Use Pricing
2.5.3.3 Price Signaling to Customers
2.5.3.4 Peak Shaving via Remote Control of Customer Power Consumption
2.5.3.5 Net Metering for Solar and Wind Power
2.5.3.6 Utility Grid Outage and Fault Management
2.5.3.7 Utility Operating Efficiency Improvements
2.5.3.8 Use of Plug-in Hybrid Electric Vehicles
2.5.3.9 Mobile Workforce Management for Utility 

3. Consumer Attitudes

3.1 Introduction and Overview
3.2 Survey Methodology
3.3 Energy Information Displays
3.3.1 Market Overview
3.3.2 Consumer Interest in Energy Information Displays
3.3.3 EID Interest Among Demographic and Behavioral Groups
3.3.4 Energy Information User Preferences
3.3.5 Information Display Type Preferences
3.3.6 EID Payment Preferences
3.3.7 Energy Management Service Provider Preferences
3.4 Demand Response
3.4.1 Market Overview
3.4.2 Consumer Interest in Demand Response
3.4.3 Demand Response Interest Among Demographic and Behavioral Groups
3.4.4 Acceptable Electric Bill Savings
3.4.5 Reasons for Lack of Interest in Demand Response
3.5 Consumer Survey Conclusions
3.5.1 Energy Information Displays Conclusions
3.5.2 Demand Response Plans Conclusions 

4. Technology Issues

4.1 Role of Communication Networks
4.2 Smart Grid Networking Technologies
4.2.1 Wide Area and Neighborhood Area Networking Technologies
4.2.1.1 Leased Lines (TDM/SONET)
4.2.1.2 Broadband over Power Lines
4.2.1.3 Narrowband over Power Lines
4.2.1.4 Cellular Networks
4.2.1.5 WiMAX
4.2.1.6 Metro Wi-Fi
4.2.1.7 RF Mesh
4.2.2 Home Area Networking Technologies
4.2.3 RF Home Area Networks
4.2.3.1 ZigBee
4.2.3.1.1 ZigBee Smart Energy Profile
4.2.3.1.2 ZigBee Evolution
4.2.3.2 Other RF HAN Technologies
4.2.4 Power Line Carrier
4.2.4.1 HomePlug
4.2.4.2 HomeGrid/ITU G.hn
4.2.5 Standards: IP vs. Proprietary Technologies
4.2.6 Security
4.2.6.1 Inventory of Major Cyber Security Risks
4.2.7 Smart Grid Interoperability Standards
4.3 Transmission and Distribution Efficiency Technologies
4.4 Advanced Electrical Transmission Technologies
4.5 Distribution Automation
4.6 Substation Automation
4.7 Smart Meters
4.8 Electric Vehicle Charging Systems 

5. Key Industry Players

5.1 Smart Grid Ecosystem
5.2 Electric Utilities
5.2.1 American Electric Power
5.2.2 Austin Energy
5.2.3 CenterPoint Energy
5.2.4 Duke Energy
5.2.5 National Grid USA
5.2.6 Pacific Gas & Electric
5.2.7 San Diego Gas & Electric
5.2.8 Southern California Edison
5.2.9 Xcel Energy
5.3 Grid Infrastructure Vendors
5.3.1 ABB Group
5.3.2 American Superconductor
5.3.3 Cooper Power Systems
5.3.4 GE Energy
5.3.5 Schweitzer Engineering Laboratories
5.3.6 Siemens Energy
5.4 Smart Meter Vendors
5.4.1 Echelon
5.4.2 Elster Group
5.4.3 Holley Metering Ltd.
5.4.4 Iskraemeco
5.4.5 Itron
5.4.6 Landis+Gyr
5.4.7 PRI Ltd.
5.4.8 Sensus
5.4.9 SmartSynch
5.5 Networking and Software & Systems Vendors
5.5.1 AT&T
5.5.2 Aclara (ESCO Technologies)
5.5.3 Ambient Corporation
5.5.4 Arch Rock
5.5.5 BPL Global
5.5.6 Cisco Systems
5.5.7 Current Group
5.5.8 Eka Systems
5.5.9 eMeter
5.5.10 Grid Net
5.5.11 Infotility
5.5.12 Nuri Telecom
5.5.13 Oracle
5.5.14 OSIsoft
5.5.15 Plextek
5.5.16 RuggedCom
5.5.17 Silver Spring Networks
5.5.18 Tantalus
5.5.19 Trilliant
5.5.20 Tropos Networks
5.5.21 Ventyx
5.6 Energy Information Displays and Devices
5.6.1 Agilewaves
5.6.2 Control4
5.6.3 Energate
5.6.4 Google
5.6.5 Microsoft
5.6.6 Onzo
5.6.7 OpenPeak
5.6.8 Tendril Networks
5.7 Semiconductors and Components
5.7.1 Certicom
5.7.2 Digi International
5.7.3 Ember
5.7.4 Texas Instruments
5.8 Systems Integrators and Services
5.8.1 Accenture
5.8.2 EnerNex Corporation
5.8.3 EnerNOC
5.8.4 IBM
5.8.5 IBM Venture Capital Group
5.8.6 PowerSecure
5.8.7 SAP
5.8.8 Sentec
5.9 Industry Associations and Advocacy Groups
5.9.1 Edison Electric Institute
5.9.2 Electric Power Research Institute
5.9.3 Galvin Electricity Initiative
5.9.4 The Demand Response and Smart Grid Coalition
5.9.5 ZigBee Alliance 

6. Market Forecasts

6.1 Worldwide Smart Grid Market
6.2 North American Smart Grid market
6.2.1 United States
6.2.2 Canada
6.3 European Smart Grid Market
6.4 Latin America, Asia-Pacific, and Middle East/Africa Smart Grid Markets

7. Company Directory
8. Acronym and Abbreviation List
9. Table of Contents
10. Table of Charts and Figures
11. Scope of Study, Sources and Methodology, Notes

List of Charts and Figures

• Smart Grid Revenue by Application, World Markets:  2008-2015
• Interest in Energy Information Displays:  All Respondents
• Interest in Energy Information Displays by Respondent Profiles and Demographics
• Energy Information User Profiles Among EID Intenders
• Information Display Type Preferences Among EID Intenders
• Payment Preferences Among EID Intenders
• Energy Management Service Provider Preferences Among EID Intenders
• Interest in Demand Response Service Plans:  All Respondents
• Interest in Demand Response Plans by Respondent Profiles and Demographics
• Lowest Acceptable Electric Bill Savings Among Demand Response Intenders
• Reasons for Lack of Interest in Demand Response
• Smart Grid Revenue by Region, World Markets:  2008-2015
• Smart Grid Revenue by Application, World Markets:  2008-2015
• Smart Grid Application Revenue Comparisons, World Markets:  2008-2015
• Cumulative Smart Grid Revenue by Region, World Markets:  2008-2015
• Cumulative Smart Grid Revenue by Application (by 2015)
• Smart Grid Revenue by Application, United States:  2008-2015
• Smart Grid Revenue by Application, Canada:  2008-2015
• Smart Grid Revenue by Application, Europe:  2008-2015
• Smart Grid Revenue by Application, Latin America:  2008-2015
• Smart Grid Revenue by Application, Asia Pacific:  2008-2015
• Smart Grid Revenue by Application, Middle East/Africa:  2008-2015
• Real-Time Pricing by State, United States:  2003
• Net Metering by State, United States:  2009
• Smart Grid Components
• EPRI Intelligrid Model
• Characteristics of Communication Technologies in Legacy Grids and Smart Grids
• Smart Grid Networks
• WAN/NAN Technology Comparison Chart
• Applications, Pros and Cons of Various Wide Area Networking Technologies
• Metro Wi-Fi Architecture for a Smart Grid Deployment
• Home Area Networking Diagram
• ZigBee Smart Energy Profile
• Opportunity for Volt-VAR Control Technologies
• Smart Grid Ecosystem
• Smart Grid Application Growth Rates

List of Tables

• AMI and Smart Grid Deployments, United States
• AMI and Smart Grid Deployments, Global
• Total Smart Grid Revenue by Region, World Markets:  2008-2015
• Total Smart Grid Revenue by Application, World Markets:  2008-2015
• Cumulative Smart Grid Revenue by Region, World Markets:  2008-2015
• Cumulative Smart Grid Revenue by Application, World Markets:  2008-2015
• Transmission Upgrade Revenue by Region, World Markets:  2008-2015
• Substation Automation Revenue by Region, World Markets:  2008-2015
• Distribution Automation Revenue by Region, World Markets:  2008-2015
• Electric Vehicle Management Systems Revenue by Region, World Markets:  2008-2015
• Advanced Metering Infrastructure Revenue by Region, World Markets:  2008-2015
• Total Grid Automation Revenue by Region, World Markets:  2008-2015
• Smart Grid Revenue by Application, North America:  2008-2015
• Smart Grid Revenue by Application, United States:  2008-2015
• Smart Grid Revenue by Application, Canada:  2008-2015
• Smart Grid Revenue by Application, Latin America:  2008-2015
• Smart Grid Revenue by Application, Europe:  2008-2015
• Smart Grid Revenue by Application, Asia Pacific:  2008-2015
• Smart Grid Revenue by Application, Middle East/Africa:  2008-2015

(日本語訳)
世界のスマートグリッド投資は2015年までに累計2000億ドルへ達するだろう

2009年12月28日
現代社会においては、様々な技術革新の基盤はユビキタスな電力供給にあるが、配電網自体は、長年にわたって投資が低レベルだったために、数十年前の技術のままである。しかし今、政府や産業界の主導により、配電インフラストラクチャのオーバーホールを促進する必要性が再認識されはじめていると、米国の環境保護関連市場調査会社パイクリサーチ社の調査レポート「スマートグリッド技術:ネットワークと通信、エネルギー管理、自動配電、高度メーターインフラ(AMI) ー Smart Grid Technologies:Networking and Communications, Energy Management, Grid Automation, and Advanced Metering Infrastructure」は報告している。そのため、世界のスマートグリッド技術への投資額は、2008-2015年の期間に累計2000億ドルとなるだろう。

「スマートメーターは、現在スマートグリッドの最大の要素であるが、しかしそれは氷山の一角に過ぎない。パイクリサーチ社の分析によれば、電力会社は、伝送装置のアップグレードや変電所の自動化、配電の自動化などの配電インフラ計画に、資本投資の大部分を注ぎ込むことになるだろうが、最大の投資収益率(ROI、return on investment)を見込むことができるだろう。」

パイクリサーチ社は、このようなグリッドオートメーションは、2015年までの世界のスマートグリッド投資の84％を占め、続いて高度メーターインフラ(AMI)の14％、電気自動車管理システムの2％と続くだろうと予測している。また、スマートグリッドの収益は、主要な政府の強力な後押しによって2013年にピークを迎え、その後は縮小しつつも、かなりの規模を保つだろうと予測している。

この調査レポートは、世界のスマートグリッド技術とアプリケーションの市場機会を分析している。電力会社のビジネスモデル、法規制、技術的な問題、エンドユーザの需要のダイナミクスを分析している。急速に発展するスマートグリッド産業の中の70社の主要企業のプロフィールと分析、2015年までの詳細な世界市場予測も行い、地域毎、アプリケーション毎に予測している。

(原文)
Smart Grid Investment to Total $200 Billion Worldwide by 2015

December 28, 2009
Ubiquitous electricity has served as the foundation for numerous technological innovations in the modern world, but the electrical grid itself is based on decades-old technology and has suffered from low levels of investment for many years. Now, however, governments and industry leaders are coming together with newfound urgency to drive an overhaul of grid infrastructure and according to a new report from Pike Research, these efforts will yield cumulative global spending of $200 billion on Smart Grid technologies during the period from 2008 to 2015.

“Smart meters are currently the highest-profile component of the Smart Grid, but they are really just the tip of the iceberg,” says managing director Clint Wheelock. “Our analysis shows that utilities will find the best return on investment, and therefore will devote the majority of their capital budgets, to grid infrastructure projects including transmission upgrades, substation automation, and distribution automation.”

Pike Research forecasts that these grid automation initiatives will capture 84% of global Smart Grid investment through 2015, compared to just 14% for advanced metering infrastructure (AMI) and 2% for electric vehicle management systems. The cleantech market intelligence firm also anticipates that Smart Grid revenues will peak in 2013 after several years of a strong push by key governments, and will thereafter be a smaller, albeit still very substantial, market.

Pike Research’s report, “Smart Grid Technologies”, analyzes the global market opportunity for Smart Grid technologies and applications. The report examines utility business models, regulatory factors, technology issues, and the dynamics of end-user demand. It includes profiles and analysis of 70 key players in the rapidly evolving Smart Grid industry ecosystem, as well as detailed global market forecasts through 2015, segmented by region and application.