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カーエレクトロニクス 自動車 自動車部品
アフターマーケット テレマティックス 燃料電池
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充電設備
電気自動車充電装置市場の分析と予測:レベル1とレベル2、CHAdeMO (直流急速充電)、無線EVSE
Electric Vehicle Charging Equipment:Level 1 and Level 2, DC Fast Charging (CHAdeMO), and Wireless EVSE: Market Analysis and Forecasts
■商品番号 pikeevce11. ■出版日 2011-08-01
■出版社 Pike Research ■ページ数 72
■図表数 46 ■価格 U$ 3,800
■商品形態 電子媒体    
注:外貨表示の価格は購入申込日のTTSレートで換算し、消費税を加えたものが商品の購入価格になります。
レポート概要
この調査レポートは、成長を続ける世界の電気自動車充電装置市場を調査し、各充電ポイント(宅内/職場/公共/個人向け)の市場分析と予測結果を掲載しいます。また新しいセクターの中でも特に注目されている直流充電装置と無線電気自動車充電ステーションについても分析しています。また主要関連企業情報や世界の地域毎と主要国毎の充電装置に関する詳細な予測結果も掲載しています。

Electric vehicles are being delivered by the thousands each month. The power delivery infrastructure that enables vehicles to charge at home, at the workplace, and in public spaces is simultaneously being rolled out. By 2017, Pike Research forecasts that more than 1.5 million locations to charge vehicles will be available in the United States, with a total of nearly 7.7 million locations worldwide. The Asia Pacific region will lead global EV charging equipment sales due to strong government incentives and directives in China, Japan, and Korea. Over the next several years, initial investments in public infrastructure from governments will give way to the private sector.

The “EV charging as a service” business model is growing as network operators look to provide electric vehicle supply equipment (EVSE) location and status information available on demand. These companies will integrate billing and aggregate power consumption to create new services that will help to stabilize grid operations and create new revenue streams. Pike Research anticipates that EVSE retail prices will fall by 37% through 2017 as competition from large electronics companies and volume production push down costs. As basic EVSE hardware becomes more of a commodity, manufacturers will integrate their equipment with external storage units, home energy management systems, and smart grid equipment to add value and increase their revenue.

This Pike Research report examines the growing global market for electric vehicle charging equipment and provides market analysis and forecasts for residential, workplace, public, and private charge points. The study also analyzes the key emerging sectors of direct current (DC) charging equipment and wireless EV charging stations. Key industry players are profiled and detailed charging equipment forecasts, segmented by world region and key countries, extend through 2017.

Key Questions Addressed:

How many plug-in hybrid and all-electric vehicles will be sold through 2017?
How many charging stations will be installed through 2017?
What role will employers play in providing EV charging equipment?
When will wireless charging equipment begin to appear on consumer vehicles?
What are the business models for rapid DC charging?
What communication standards are necessary to enable remote smart charging of vehicles?
What are the primary business drivers for retailers to install EVSEs?
Who needs this report?

Utilities
Electric vehicle manufacturers
Charging equipment manufacturers
Employers
Building managers
Industry associations
Government agencies
Investor community

目次

1. Executive Summary

1.1 Introductions
1.2 World Markets
1.3 Business Models

2. Market Issues

2.1 PEV Market
2.1.1 Impact of New Model Introductions
2.1.2 PEV Premium Cost
2.1.3 Regional PEV Sales
2.2 Vehicle Charging
2.2.1 Onboard Charging Equipment
2.2.2 Commercial Infrastructure Locations
2.2.3 Residential Charging
2.2.3.1 Residential Upgrade Requirements
2.2.3.2 New Construction
2.2.3.3 Underwriters Lab Certification
2.2.3.4 Cost
2.2.3.5 Permits
2.3 Commercial Charging Equipment
2.3.1 Public Charging
2.3.1.1 Private Charging Stations
2.3.1.2 Workplace Charging
2.4 Regional EVSE Deployments
2.4.1 North America
2.4.2 Europe
2.4.2.1 Market Segmentation
2.4.2.2 Utility Involvement
2.4.2.3 Business Models
2.4.3 Asia
2.4.3.1 Japan
2.4.3.1.1. Charger Deployment Plans in Japan
2.4.3.2 Korea
2.4.3.2.1. Charger Deployment Plans in Korea
2.4.3.3 China
2.4.3.3.1. Charger Deployment Plans and Standards in China
2.5 DC Charging
2.5.1 Charge Rates
2.5.2 Equipment Placement
2.5.3 Cost
2.5.4 Grid Impact
2.5.5 Customer Demand
2.5.6 Business Model
2.5.7 CHAdeMO
2.5.7.1 Automaker Support
2.5.7.2 EVSE Vendor Support
2.6 Wireless Charging
2.6.1 Stage of Commercialization
2.6.1.1 Field Trials
2.6.2 Cost
2.6.3 Standards
2.6.4 Road-Embedded Charging Equipment
2.7 Battery Swapping Stations

3. Marketing and Commercialization

3.1 EV Charging Economics
3.2 EV Charging Rates
3.3 Car Charging Networks
3.4 Multi-Family Dwellings
3.5 Smart Charging
3.5.1 Residential
3.5.1.1 Remote EV Charging Management
3.5.1.2 Interaction/Competition from PEV Telematics
3.5.1.3 Integration with Home Energy Management Systems
3.5.2 Commercial Charging Equipment
3.5.2.1 Integration with Solar
3.5.2.2 Smart Grid Integration
3.5.2.3 V2G
3.5.2.4 Ancillary Services
3.5.2.5 Vehicle to Building
3.6 Implementation Issues
3.6.1 Charging Control Device Conflict
3.6.2 Multiple Charging Networks and Billing Systems
3.6.3 Regulatory Restrictions
3.6.4 Impact on Utilities
3.6.4.1 Generation Capacity
3.6.4.2 Impact on Distribution
3.6.4.2.1. DC Charging Impact
3.6.4.3 Neighborhood Impact
3.6.4.4 Impact on Utility Equipment

4. Demand Drivers

4.1 International Government Financial Support
4.2 U.S. Incentives
4.2.1 Stimulus Spending
4.2.2 Tax Credits
4.2.3 State Incentives
4.3 Transportation Fuel Savings
4.4 Carbon Emissions and Air Quality
4.5 Cities Desire to Be Green
4.6 Energy Security and Jobs
4.7 Smart Grid
4.8 Utility PEV Programs

5. Technology Issues

5.1 Equipment Connection Standards
5.2 Safety Standards
5.3 AC Connectors
5.3.1 SAE
5.3.2 Europe
5.3.3 Japan
5.3.4 China
5.3.5 DC Connectors
5.3.5.1 CHAdeMO
5.3.5.2 SAE
5.3.5.3 IEC
5.3.6 Combo Connectors
5.3.7 Communications Standards
5.3.7.1 Energy Transfer Standard
5.3.7.2 Messaging Standard
5.4 Impact on Batteries
5.4.1 Impact on the Grid
5.5 Wireless Charging
5.5.1 Charging Efficiency
5.5.2 Standards

6. Key Industry Players

6.1 EVSE Manufacturers and Service Companies
6.1.1 350Green
6.1.2 AeroVironment Inc.
6.1.3 Aker Wade Power Technologies
6.1.4 Better Place
6.1.5 ClipperCreek
6.1.6 Coulomb Technologies Inc.
6.1.7 Delphi Automotive LLP
6.1.8 Eaton Corporation
6.1.9 ECOtality
6.1.10 Elektromotive Ltd.
6.1.11 Eltek Valere
6.1.12 Epyon Power
6.1.13 Evatran (Plugless Power)
6.1.14 General Electric
6.1.15 Gridtest Systems
6.1.16 HaloIPT
6.1.17 Leviton Manufacturing Co. Ltd.
6.1.18 Magna International
6.1.19 Schneider Electric
6.1.20 Siemens AG
6.1.21 WiTricity Corporation
6.2 Utilities Offering EVSE and Charging Services
6.2.1 Endesa S.A.
6.2.2 NRG Energy
6.2.3 PowerStream
6.3 Automotive OEMs
6.3.1 Ford
6.3.2 Mitsubishi
6.4 EVSE-Related Companies
6.4.1 IBM
6.4.2 PJM
6.5 SAE International
6.6 Silver Spring Networks

7. Market Forecasts

7.1 Global EV Charging Equipment Sales
7.1.1 Residential Charging
7.1.2 Workplace Charging
7.1.3 Public Charging
7.1.4 Private Charging
7.2 North America
7.2.1 Western Europe
7.2.2 Asia Pacific
7.3 Rapid DC Charging
7.4 Wireless Charging

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

List of Charts and Figures

  • Campus Microgrid Planned Capacity by Scenario, World Markets: 2011-2017
  • Campus Microgrid Annual Revenue by Scenario, World Markets: 2012-2017
  • Renewable Distributed Generation Capacity Additions, World Markets: 2009
  • Solar Market Demand, Aggressive Scenario, World Markets: 2008-2013
  • Institutional CHP Unit Shipments by Region, World Markets: 2011-2021
  • Stationary Fuel Cell Installed Capacity Comparisons, World Markets: 2011-2017
  • Cumulative Capacity Energy Storage for Grid Service Applications, World Markets: 2011-2021
  • Electric Vehicle Sales, United States: 2010-2015
  • Planned Campus Microgrid Capacity by Segment, Average Scenario, World Markets: 2011-2017
  • Campus Microgrid Annual Revenue by Scenario, World Markets: 2012-2017
  • Planned Campus Microgrid Capacity by Region, Average Scenario, World Markets: 2011-2017
  • California State University Microgrid Network Landscape
  • PQR Hierarchy
  • Hybrid Microgrid-VPP Networks for College Campuses
  • UCSD Microgrid Topology
  • Microgrids as Portion of U.S. CHP Market
  • U.S. States with Revenue Decoupling
  • States with IOU Residential Real-Time Pricing or TOU Rates
  • States with Net Metering
  • Conventional and Microgrid Paradigms
  • Current Microgrid Project/Test Center Landscape in the United States
  • Microgrid Payback Periods and Market Penetration
  • Denmark’s “Cell Controller Project”
  • SMUD 310 kW Campus Microgrid Topology
  • Map of NYU Washington Square Microgrid (Colored Buildings)
  • BC Hydro’s Smart Grid Pyramid (with Microgrid)
  • DC Devices Within the Typical Home
  • Stamford, Connecticut Corporate Campus Microgrid Layout
  • General Microgrids’ Summary of Distributed Renewable Energy Future
  • Warrick Power Plant Energy and Load Data as Depicted by the PI System
  • “Perfect Power” System (with Smart Switches) at IIT’s Siegel Hall
  • Load Impacts of PHEVs in Southern California
  • Fisher-Pry S Curve for Microgrids
  • Cornell University CHP/Microgrid Configuration

List of Tables

  • Planned Campus Microgrid Capacity by Region and Segment, Base Scenario, World Markets: 2011-2017
  • Planned Campus Microgrid Capacity by Segment, Base Scenario, World Markets: 2011-2017
  • Planned Campus Microgrid Capacity by Region and Segment, Average Scenario, World Markets: 2011-2017
  • Planned Campus Microgrid Capacity by Segment, Average Scenario, World Markets: 2011-2017
  • Planned Campus Microgrid Capacity by Region and Segment, Aggressive Scenario, World Markets: 2011-2017
  • Planned Campus Microgrid Capacity by Segment, Aggressive Scenario, World Markets: 2011-2017
  • Annual Campus Microgrid Revenue by Region and Segment, Base Scenario, World Markets: 2012-2017
  • Annual Campus Microgrid Revenue by Segment, Base Scenario, World Markets: 2012-2017
  • Annual Campus Microgrid Revenue by Region and Segment, Average Scenario, World Markets: 2012-2017
  • Annual Campus Microgrid Revenue by Segment, Average Scenario, World Markets: 2012-2017
  • Annual Campus Microgrid Revenue by Region and Segment, Aggressive Scenario, World Markets: 2012-2017
  • Annual Campus Microgrid Revenue by Segment, Aggressive Scenario, World Markets: 2012-2017
  • SWOT Analysis for Campus Environment Microgrids
  • VPP versus Central Station Power Plant
  • SWOT Analysis for Campus Environment VPP
  • Selected States Offering Net Metering Aggregation
  • Price Summary for Solar PV Feed-In Tariffs Worldwide
  • SMUD SWOT Analysis
  • Con Edison SWOT Analysis
  • BC Hydro SWOT Analysis
  • GE SWOT Analysis
  • Siemens SWOT Analysis
  • Intel SWOT Analysis
  • Pareto Energy SWOT Analysis
  • General Microgrids SWOT Analysis
  • Horizon Energy Group SWOT Analysis
  • Power Analytics SWOT Analysis
  • Viridity Energy SWOT Analysis
  • OSIsoft SWOT Analysis
  • ZBB Energy Corporation SWOT Analysis
  • S&C Electric SWOT Analysis


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