電力網におけるエネルギー貯蔵:電力会社規模の長期エネルギー貯蔵システム向けの圧縮空気、揚水発電貯蔵、NaS電池、水力発電貯蔵、フロー電池、リチウムイオン電池 / パイクリサーチ社

電力網におけるエネルギー貯蔵:電力会社規模の長期エネルギー貯蔵システム向けの圧縮空気、揚水発電貯蔵、NaS電池、水力発電貯蔵、フロー電池、リチウムイオン電池

Energy Storage on the Grid
Long Duration Energy Storage Systems: Compressed Air, Pumped Storage, NaS Batteries, Hydrogen Storage, Flow Batteries, and Lithium Ion Batteries for Utility-Scale Storage

目次
プレスリリース
印刷

出版社	出版日	電子媒体 (05/23 レート)	ページ数	図表数
パイクリサーチ社	2011年7月	US$ 3,800 \323,030(税込) ライセンス別価格	140	185

価格・ご注文について

サマリー

※上記の価格は、1-5ユーザのライセンス価格です。その他のライセンス価格は、お問合せください。

Pike Research 電力網におけるエネルギー貯蔵の市場調査報告書この調査レポートは、電力網におけるエネルギー貯蔵市場を調査し、主要な市場成長促進要因と阻害要因の分析や技術動向、主要12ヶ国の詳細情報を掲載しています。世界の長期エネルギー貯蔵市場やセグメント(地域/アプリケーション/技術)毎、収益とメガワットを用いた予測結果を掲載しています。

主な掲載内容(目次より抜粋)

エグゼクティブサマリー
市場動向
技術動向
- 圧縮空気
- 水力
- 揚水発電
- ナトリウム硫黄電池
- フロー電池
- リチウムイオン電池など
市場予測
主要産業動向と企業情報
市場予測

Fundamentally, electric grids require balance in order to function properly. Energy storage provides grid operators with an alternative to traditional grid management. Storage solutions such as compressed air and pumped storage have been around for decades, but while these installations provide large storage capacity, the technologies have not had significant success in the global market when compared to the substantial increase in grid capacity over the past 50 years.

Long duration energy storage on the grid (ESG) is reaching a turning point. Currently, a number of new technologies ? and variations on “old” technologies such as compressed air energy storage and pumped storage ? are being demonstrated in North America, Asia Pacific, Europe, and the Middle East. The market is ripe with opportunity. Utilities, grid service providers, and equipment suppliers are all participating in energy storage projects.

This Pike Research report includes analysis of key market drivers and barriers for the emerging energy storage market, technology issues, and detailed profiles of 12 key countries. The study provides global forecasts for the long duration energy storage market, segmented by region, application, and technology, and measured in revenue and megawatts. The report also identifies the key changes in the ESG market during the past year and includes analysis on key energy storage projects to date.

Key Questions Addressed:

How is the energy storage market segmented between long discharge duration energy storage on the grid (ESG) applications and short duration ancillary services applications?
Which technologies are best suited for ESG applications, and to which applications specifically?
What are the most popular applications, by region, for energy storage?
In the case of ESG installations with multiple applications, which are the primary applications overall?
How large is the market, in terms of megawatts and revenue, by application and region?
What will the market segmentation be in the United States, Europe, and Asia Pacific by technology and application?
Who are the key players in the ESG market?
How fast will the market grow and what are the key demand drivers?
What are the key countries for ESG going forward and what are the key drivers, barriers, and opportunities for energy storage in those markets?
What are the estimated installed energy storage costs and revenue opportunities for energy storage technology providers?
How does this vary by different energy storage technologies providing ESG?

Who needs this report?

Energy storage technology providers
Energy storage service providers
Battery manufacturers and component providers
Utilities
Renewable energy technology providers
Renewable energy project developers
Investor community
Government agencies
Consultants

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

1.1 Introduction
1.2 Recent Changes in the ESG Market
1.3 ESG Technologies
1.4 ESG Players
1.5 ESG Market Forecast
1.5.1 Why the Numbers Are Different
1.5.2 ESG Forecasts

2. Market Issues

2.1 Defining the ESS Market

2.1.1 Energy Storage on the Grid
2.1.2 Ancillary Services

2.2 ESG Applications

2.2.1 Primary, Secondary, and Tertiary Applications
2.2.2 Load Leveling and Peak Shifting
2.2.3 Arbitrage
2.2.4 Renewable Energy Grid Integration
2.2.5 Transmission & Distribution Upgrade Deferral

2.3 Business Models for ESS

2.4 Market Segmentation of ESS
2.4.1 Market Segmentation by Technology
2.4.2 Market Segmentation by Geography
2.4.3 Market Segmentation by Application

3. Technology Issues

3.1 Introduction
3.2 Compressed Air Energy Storage

3.2.1 Overview
3.2.2 Applications

3.3 Hydrogen

3.3.1 Overview
3.3.2 Applications

3.4 Pumped Storage

3.4.1 Overview
3.4.2 Applications

3.5 Sodium Sulfur Batteries

3.5.1 Overview
3.5.2 Applications

3.6 Flow Batteries

3.6.1 Vanadium Redox Flow Batteries
3.6.2 Zinc Bromine Flow Batteries

3.7 Lithium Ion Batteries

3.7.1 Overview
3.7.2 Leading Chemistries
3.7.3 Summary of Developments
3.7.4 Efficiency and Capacity

3.8 Other Advanced Batteries

3.8.1 Sodium Metal Halide
3.8.2 Metal Air Batteries

3.9 ESG Technology Comparison

3.10 ESG Costs

3.10.1 CAES
3.10.2 Pumped Storage
3.10.3 Sodium Sulfur
3.10.4 Flow Batteries
3.10.5 Lithium Ion

4. Energy Storage Markets by Region

4.1 North America

4.1.1 Canada
4.1.2 United States

4.2 Europe

4.2.1 EU 20/20/20
4.2.2 Renewables Penetration
4.2.3 Denmark
4.2.4 Germany
4.2.5 France
4.2.6 Spain
4.2.7 Italy
4.2.8 United Kingdom
4.2.9 Central Europe

4.3 Asia Pacific

4.3.1 Japan
4.3.2 Korea
4.3.3 India
4.3.4 China

4.4 Latin America
4.5 Middle East
4.6 Africa
4.7 Summary

5. Key Industry Players

5.1 Compressed Air Energy Storage

5.1.1 Bright Energy Storage Technologies
5.1.2 Dresser-Rand
5.1.3 Energy Storage and Power
5.1.4 General Compression
5.1.5 Haddington Ventures
5.1.6 Iowa Stored Energy Park
5.1.7 SustainX

5.2 Hydrogen

5.2.1 Hydrogenics
5.2.2 ITM Power

5.3 Pumped Storage

5.3.1 Black & Veatch
5.3.2 HDR
5.3.3 MHW Global

5.4 NaS Batteries

5.4.1 NGK Insulators

5.5 Flow Batteries

5.5.1 EnerVault
5.5.2 Premium Power
5.5.3 Primus Power
5.5.4 Prudent Energy
5.5.5 RedFlow Technologies
5.5.6 Sumitomo Electric Industries
5.5.7 ZBB Energy Corp.

5.6 Lithium Ion

5.6.1 A123 Systems
5.6.2 Altair Nanotechnologies
5.6.3 Electrovaya
5.6.4 Ener1/EnerDel
5.6.5 Hitachi Group
5.6.6 International Battery
5.6.7 Johnson Controls
5.6.8 Saft Batteries
5.6.9 Seeo

5.7 Other Advanced Batteries

5.7.1 44 Tech
5.7.2 General Electric

5.8 ESG Value-Add Players

5.8.1 ABB
5.8.2 AES Energy Storage
5.8.3 Gridflex
5.8.4 NYSERDA
5.8.5 RES Americas
5.8.6 Rubenius
5.8.7 RWE Power
5.8.8 S&C Electric Company

6. Market Forecasts

6.1 Changes from 2010 Forecasts
6.2 Primary, Secondary, and Tertiary Applications: Challenges in Defining Market Value
6.3 Forecasts by ESG Technology
6.4 Forecast by Application

6.5 Forecasts by Region ($ and MW)

6.5.1 United States
6.5.2 Europe
6.5.3 Asia Pacific

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

Installed Revenue by ESG Technology, World Markets: 2011-2021
ESS Installation Segmentation by Technology (Major Projects, +- 10 years): 2011
ESS Segmentation by Technology, MW (Major Projects, +- 10 years): 2011
ESS Market Segmentation by Geography, (Major Projects, +- 10 years), in MW: 2011
ESS Installation Segmentation by Technology (Major Projects, +- 10 years): 2011
Installed ESG Market Segmentation by Application, World Markets: 2011
ESS Market Segmentation by Geography, in MWh: 2011
ESS Market Segmentation by Geography and Technology, World Markets: 2011
ESG Market Segmentation by Application, World Markets: 2011
ESG Market Segmentation by Application, World Markets: 2011
ESS Segmentation by Technology, MWh (Major Projects, +- 10 years): 2011
Electricity Production, by Fuel Type, in GWh, Canada: 2008
Electricity Production, by Fuel Type, in GWh, United States: 2008
Electricity Production, by Fuel Type, in GWh, Denmark, Germany, France, Spain, Italy, and U.K.: 2008
Share of Renewable Energy in Gross Final Energy Consumption: 2006-2020
Electricity Production, by Fuel Type, in GWh, Denmark: 2008
Electricity Production, by Fuel Type, in GWh, Germany: 2008
Electricity Production, by Fuel Type, in GWh, France: 2008
Electricity Production, by Fuel Type, in GWh, Spain: 2008
Electricity Production, by Fuel Type, in GWh, Italy: 2008
Electricity Production, by Fuel Type, in GWh, United Kingdom: 2008
Electricity Production, by Fuel Type, in GWh, Japan: 2008
Electricity Production, by Fuel Type, in GWh, Korea: 2008
Electricity Production, by Fuel Type, in GWh, India: 2008
Electricity Production, by Fuel Type, in GWh, China: 2008
Electricity Production, by Fuel Type, in GWh, Latin America: 2008
Electricity Production, by Fuel Type, in GWh, Middle East: 2008
Electricity Production, by Fuel Type, in GWh, Africa: 2008
ESG Installation Segmentation by Application, Number of Major Projects: 2011
Long-Term Energy Supply and Demand Outlook for Japan’s Primary Supply, Generation Capacity, and Output
BP Energy Outlook, Projected Growth of Energy Consumption by Sector, Region, and Fuel
Total Capacity by Application, World Markets: 2011-2021
New Capacity Addition of All Energy Storage Technologies by Technology, United States: 2011-2021
New Capacity Forecast by ESG Technology, World Markets: 2011-2021
Cumulative Capacity Forecast by ESG Application, World Markets: 2011-2021
Installed Revenue by Region, World Markets: 2011-2021
Installed Capacity by Region, World Markets: 2011-2021
Installed Revenue by ESG Technology, North America: 2011-2021
New Capacity Forecast by ESG Technology, North America: 2011-2021
Installed Revenue by ESG Technology, Western Europe: 2011-2021
New Capacity Forecast by ESG Technology, Western Europe: 2011-2021
Installed Revenue by ESG Technology, Asia Pacific: 2011-2021
New Capacity Forecast by ESG Technology, Asia Pacific: 2011-2021
ESS Market Segmentation
Fluctuations in Wind Power Feed in E.ON Netz Control Area: November 2003
Energy Storage Technologies Performance: Discharge Time vs. Rated Power
Energy Storage Technologies Performance: Discharge Time vs. Rated Power
Definition of Ancillary Services
Schematic of Compressed Air Energy Storage
Second-Generation CAES Design
Core CAES Application: Renewable Energy Time Shift
Intrinsic Value of Classic Bulk Storage
Intrinsic Value of Classic Bulk Storage – Enhanced with CAES Flexibility
Hydrogen Fueling Demonstration at Stansted Airport Using ITM Power Electrolyzer and Energy Storage Solution
Schematic of Pumped Storage
Planned Pumped Storage Facilities in the United States
Integrating Wind with Pumped Storage Shaping Wind Variability
Schematic of Sodium Sulfur Battery Technology
Core NaS Application: Conventional Energy Time Shifting or Peak Shaving
Schematic of Vanadium Redox Battery Technology
Core VRB Application: Conventional Energy Time Shifting or Load Leveling
Schematic of Zinc Bromine Flow Battery Technology
Energy Storage Characteristics
U.S. Renewable Portfolio Standards
ISO/RTO Regions
Primary Energy Use per Capita in Six European Countries in kg of Oil Equivalent
Primary Production of Renewable Energies in Europe
Primary Production of Wind Energy in Europe
German Regional Generation Mix

List of Tables

Project Characteristics Tracked in the Pike Research Dataset
Advantages and Disadvantages of Hydrogen-Based Energy Storage
Characteristics of Li-ion Battery Chemistries
ESG Technology Strengths and Weaknesses
AB 2514 Implementation Timeline
Federal Energy Storage Funding Opportunities
Selections for Section 48C Manufacturing Tax Credit
Additional Projects
Share of Renewable Energy in Gross Final Energy Consumption: 2006-2020
Total Installed Wind Capacity, European Union: 2001-2010
Current Banding Level of Support Under the RO in England and Wales
Transition Challenges in the Power Sector for Central European Countries
New and Renewable Energy (NRE) Feed-In Tariff Scheme, Korea
Key Applications for Energy Storage in China
Summary of Key Markets and Drivers and Market Characteristics
Bright Energy Storage SWOT Analysis
Dresser-Rand SWOT Analysis
Energy Storage and Power SWOT Analysis
General Compression SWOT Analysis
Haddington Ventures SWOT Analysis
ISEPA SWOT Analysis
SustainX SWOT Analysis
Hydrogen Fuelling Stations Using Hydrogenics Electrolyzers
Hydrogenics SWOT Analysis
ITM Power SWOT Analysis
Black & Veatch SWOT Analysis
HDR SWOT Analysis
MWH Global SWOT Analysis
NGK Insulators SWOT Analysis
EnerVault SWOT Analysis
Premium Power SWOT Analysis
Primus Power SWOT Analysis
Prudent Energy SWOT Analysis
RedFlow Technologies SWOT Analysis
Sumitomo Electric Industries SWOT Analysis
ZBB Energy Corp. SWOT Analysis
A123 Systems SWOT Analysis
Altairnano SWOT Analysis
Electrovaya SWOT Analysis
Ener1/EnerDel SWOT Analysis
Hitachi Group SWOT Analysis
International Battery SWOT Analysis
Johnson Controls SWOT Analysis
Saft Batteries SWOT Analysis
Seeo SWOT Analysis
44 Tech SWOT Analysis
General Electric SWOT Analysis
ABB SWOT Analysis
AES Energy Storage SWOT Analysis
Gridflex SWOT Analysis
NYSERDA SWOT Analysis
RES Americas SWOT Analysis
Rubenius SWOT Analysis
RWE Power SWOT Analysis
S&C Electric Company SWOT Analysis
Baseline Figures for Each Application in the Market Forecast
Baseline Figures for the Top 3 Regional Markets for ESG as of 2011
CAES Average Duration of Discharge by Region, World Markets: 2011-2021
CAES Electricity Output by Region, New Capacity, World Markets: 2011-2021
CAES Power Cost by Region, World Markets: 2011-2021
CAES Energy Cost by Region, World Markets: 2011-2021
CAES Total Installed System Revenue by Region, World Markets: 2011-2021
Annual Growth of New Pumped Storage by Region, World Markets: 2012-2021
Pumped Storage Installed New Capacity by Region, World Markets: 2011-2021
Pumped Storage Average Duration of Discharge by Region, World Markets: 2011-2021
Pumped Storage Electricity Output by Region, World Markets: 2011-2021
Pumped Storage Power Cost by Region, World Markets: 2011-2021
Pumped Storage Energy Cost by Region, World Markets: 2011-2021
Pumped Storage Total Installed System Revenue by Region, World Markets: 2011-2021
Annual Growth of New NaS Batteries by Region, World Markets: 2011-2021
NaS Battery Installed New Capacity by Region, World Markets: 2011-2021
NaS Battery Average Duration of Discharge by Region, World Markets: 2011-2021
NaS Battery Electricity Output by Region, World Markets: 2010-2020
NaS Battery Power Cost by Region, World Markets: 2011-2021
NaS Battery Energy Cost by Region, World Markets: 2011-2021
NaS Battery Total Installed System Revenue by Region, World Markets: 2011-2021
Annual Growth of New Advanced Flow Batteries by Region, World Markets: 2012-2021
Advanced Flow Battery Installed New Capacity by Region, World Markets: 2011-2021
NaS Battery Energy Cost by Region, T&D Deferral, World Markets: 2011-2021
Application: T&D Upgrade Deferral Installed Capacity, World Markets: 2011-2021
Annual Growth of New Advanced Lithium Ion Batteries by Region, World Markets: 2011-2021
Advanced Lithium Ion Battery Installed New Capacity by Region, World Markets: 2011-2021
Advanced Lithium Ion Battery Average Duration of Discharge by Region, World Markets: 2011-2021
Advanced Lithium Ion Battery Electricity Output by Region, World Markets: 2011-2021
Advanced Lithium Ion Battery Power Cost by Region, World Markets: 2011-2021
Advanced Lithium Ion Battery Energy Cost by Region, World Markets: 2011-2021
Advanced Lithium Ion Battery Total Installed System Revenue by Region, World Markets: 2011-2021
Advanced Lithium Ion Battery Installed New Capacity by Region, T&D Deferral, World Markets: 2011-2021
Advanced Lithium Ion Battery Installed New Capacity by Region, World Markets: 2011-2021
Advanced Lithium Ion Battery Energy Cost by Region, T&D Deferral, World Markets: 2011-2021
Annual Growth of New Advanced Flow Batteries by Region, World Markets: 2012-2021
Advanced Flow Battery Installed New Capacity by Region, World Markets: 2011-2021
Advanced Flow Battery Average Duration of Discharge by Region, World Markets: 2011-2021
Advanced Flow Battery Electricity Output by Region, World Markets: 2011-2021
Advanced Flow Battery Power Cost by Region, World Markets: 2011-2021
Advanced Flow Battery Energy Cost by Region, World Markets: 2011-2021
Advanced Flow Battery Total Installed System Revenue by Region, World Markets: 2011-2021
Advanced Flow Battery Installed New Capacity by Region, T&D Deferral Only, World Markets: 2011-2021
Advanced Flow Battery Installed New Capacity by Region, Excluding T&D, World Markets: 2011-2021
Advanced Flow Battery Energy Cost by Region, T&D Deferral, World Markets: 2011-2021
Annual Growth of All Energy Storage Technologies Combined by Region, New Capacity, World Markets: 2012-2021
All Energy Storage Technologies Installed New Capacity by Region, World Markets: 2010-2021
All Energy Storage Technologies Electricity Output by Region, World Markets: 2011-2021
All Energy Storage Technologies Total Installed System Revenue by Region, World Markets: 2011-2021
All Energy Storage Technologies Installed Capacity by Technology, World Markets: 2011-2021
All Energy Storage Technologies Total Installed System Revenue by Technology, World Markets: 2011-2021
Application: Load Leveling/Peak Shifting Installed Capacity, World Markets: 2011-2021
Application: Renewables Integration (Wind) Installed Capacity, World Markets: 2011-2021
Application: Renewables Integration (Solar) Installed Capacity, World Markets: 2011-2021
Application: Arbitrage Installed Capacity, World Markets: 2011-2021
Installed Revenue by ESG Technology, World Markets: 2011-2021
New Capacity Revenue of All Energy Storage Technologies by Technology, United States: 2011-2021
New Capacity Addition of All Energy Storage Technologies by Technology, Western Europe: 2011-2021
New Capacity Revenue of All Energy Storage Technologies by Technology, Western Europe: 2011-2021
New Capacity Addition of All Energy Storage Technologies by Technology, Asia Pacific: 2011-2021
New Capacity Revenue of All Energy Storage Technologies by Technology, Asia Pacific: 2011-2021

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プレスリリース

世界のエネルギー貯蔵技術への投資は2021年に1220億ドルに達する

2011年7月18日
基本的には、電力網は適切に機能するためにバランスを必要とする。エネルギー貯蔵技術は、電力網のオペレータに、従来のグリッド管理に代わる新しい手段を提供するだろう。長期エネルギー貯蔵は主に、風力や太陽光発電のような再生可能エネルギー源の断続性を相殺したり、電力網の需要のピーク時間を回避したり、高額な送配電の工事費用を避けたり遅らせたりすることができる。米国の環境エネルギーなどの地球環境保護に関するクリーン技術関連市場の専門調査会社パイクリサーチ社の調査レポート「電力網におけるエネルギー貯蔵:電力会社規模の長期エネルギー貯蔵システム向けの圧縮空気、揚水発電貯蔵、NaS電池、水力発電貯蔵、フロー電池、リチウムイオン電池ー Energy Storage on the Grid:Long Duration Energy Storage Systems: Compressed Air, Pumped Storage, NaS Batteries, Hydrogen Storage, Flow Batteries, and Lithium Ion Batteries for Utility-Scale Storage」は、このような用途が促進するために、2011-2021年にエネルギー貯蔵の計画への世界の投資額は1220億ドルに達するだろうと予測している。

「電力グリッドのエネルギー貯蔵は、転機にきている。現在、世界中で、多くの新技術や、圧搾空気や揚水貯蔵などの'古い'技術の変化が起こっている。市場の機は熟しており、公益企業、電力網サービスプロバイダ、装置ベンダはこぞって、エネルギー貯蔵の分野への取り組みに注力している」と調査アナリストのAnissa Dehamna氏は語る。

揚水発電ストレージと高度なフロー電池は、長期のエネルギー貯蔵市場の、今後10年間の収入において最も大きい部分を占めるだろう。予測期間中の大容量貯蔵アプリケーションでは、高度なリチウムイオン電池、ナトリウム硫黄(NaS)バッテリ、圧縮空気エネルギー貯蔵(CAES)も主要技術であるだろう。

パイクリサーチ社は、この市場の様々なアプリケーションについて予測し、再生可能エネルギー、特に風力発電は、長時間エネルギー貯蔵システムの容量の半分以上を占めるだろうと予測している。総市場の内、平均化とピークシフトが31％、裁定取引(アービトレージ)が12%、T&Dアップグレード延期が7%と予測している。

この調査レポートは、新しいエネルギー貯蔵システム市場の主要な促進要因と阻害要因の分析、技術問題、12の主要国の詳細なプロフィールを記載している。長時間のエネルギーストレージ市場の世界市場の予測を地域毎、アプリケーション毎、技術毎に、収益と電力容量で予測している。過去数年間のエネルギー貯蔵市場の主要な課題と、主要なエネルギー貯蔵プロジェクトの分析も記載している。

[プレスリリース原文]
Global Investment in Energy Storage Technologies to Reach $122 Billion by 2021

July 18, 2011

On a fundamental level, electric grids require balance in order to function properly. Energy storage technologies are emerging as a means of providing grid operators with an alternative to traditional grid management. Key applications for long-duration energy storage include counterbalancing the intermittency of renewable energy sources like wind and solar power, leveling the loads and time-shifting periods of peak demand on the grid, and avoiding or delaying the construction of costly transmission and distribution (T&D) assets, among others. According to a new report from Pike Research, these applications will drive a total worldwide investment of just over $122 billion in energy storage projects during the period between 2011 and 2021.

“Energy storage on the grid is reaching a turning point,” says research analyst Anissa Dehamna. “Currently, a number of new technologies – and variations on ‘old’ technologies such as compressed air and pumped storage – are being demonstrated in countries around the world. The market is ripe with opportunity and utilities, grid service providers, and equipment suppliers are all intensifying their efforts in the energy storage arena.”

Dehamna adds that for the long duration segment of the energy storage market, pumped hydro storage and advanced flow batteries will represent the largest portions of the total revenue opportunity during the next decade. Advanced lithium ion batteries, sodium sulfur (NaS) batteries, and compressed air energy storage (CAES) are other key technologies that will be utilized for bulk storage applications during the forecast period.

Pike Research anticipates that among the various application segments in this market, the integration of renewable energy – primarily wind power – will represent approximately 50% of the total capacity deployed for long duration energy storage. The firm forecasts that load leveling/peak shifting will represent 31% of the total market, followed by arbitrage (12%) and T&D upgrade deferral (7%).

Pike Research’s report, “Energy Storage on the Grid”, includes analysis of key market drivers and barriers for the emerging energy storage market, technology issues, and detailed profiles of 12 key countries. The study provides global forecasts for the long duration energy storage market, segmented by region, application, and technology, and measured in revenue and megawatts. The report also identifies the key changes in the energy storage market during the past year and includes analysis on key energy storage projects to date.