Grid-Scale Electricity Storage Technologies: Global Markets

 Published On: Jan, 2016 |    No of Pages: 320 |  Published By: BCC Research-JT Gabrielsen Consulting LLC Research | Format: PDF
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The global market for grid-scale battery storage technologies reached $637 million in 2014. This market is projected to reach nearly $4.0 billion in 2025 from $716 million in 2015 at a compound annual growth rate of 18.7% for the period 2015-2025.

This report provides:

-An overview of the global markets for grid-scale electricity storage technologies.
-Analyses of global market trends, with data from 2014, 2015, estimnates for 2020 and projections of CAGRs through 2025.
-A look at factors influencing growth of the market including a growing share of power generation coming from intermittent renewable energy sources, rising commodity prices, and escalating energy peak demand and price in many economies.
-Applications for Grid Scale Battery Storage including:
Power Generation Support - Load Levelling & Grid Stabilisation
-Renewable Energy Integration/ accommodation of Renewables
-Transmission & Distribution Support
-Distributed Power Generation and End-User Support
-Coverage of typical components including lead-acid batteries, Lithium-ion batteries, Sodium-based batteries, flow batteries, and others.
-Evaluation of overall benefits and challenges for using grid scale battery storage.
-Profiles of major players in the industry.

INTRODUCTION

STUDY GOALS AND OBJECTIVES
BCC Research’s goal in conducting this study was to assess and describe the current status and assess the potential growth of the worldwide grid-scale battery storage (GSBS) technology industry and the market for associated storage technologies. More specifically, the study included the following objectives: (1) summarize existing GSBS technologies and promising emerging battery technologies and applications that are under development; (2) evaluate the existing GSBS technology industry, focusing on the manufacturers and providers of major components for viable storage technologies; and (3) assess market potential for GSBS technologies over a five-year period from 2015 through 2020.

REASONS FOR COMPLETING THIS STUDY
With the exception of the recent period immediately following the global economic turndown, global demand for electricity is expected to continue to increase through at least the next two decades. However, much of the world’s electricity generation industry is in the midst of a turning point. In support of carbon dioxide (CO2) emissions reduction regulations and industry trends, the electricity generation sector is in the process of transitioning generally away from coal- and oil-fired electricity production, and toward the installation of increasing proportions of renewables. However, many renewable energy resources are intermittent in nature: Solar cells only generate
electricity when the sun is shining, and wind turbines only generate power when sufficient wind is blowing. To meet consumer electricity demand, which is often not aligned with available renewable power production capacity, very large-scale energy storage technologies are needed.

The purpose of this report is to provide a regional assessment of the GSBS market potential, as well as existing and projected future market sizes. This is an important scope because GSBS markets vary substantially based on regional characteristics and on the technology in question. Grid-scale battery technologies have been in existence for many decades but are only now coming into prominence as a major energy storage technology due to the increasing renewable energy generation sources. GSBS is considered in this report, as battery technologies are coming of age and are capable of storing sufficient energy to be relevant at the utility scale—with hundreds of megawatts (MWs) of generation capacity. Grid-scale battery technologies come in many different electrochemical formulae combinations. Within this context, this report identifies the basis and installation/market potential for GSBS demand in each global region, within the 2015 to 2025 timeframe.

INTENDED AUDIENCE
This study reviews GSBS technologies, along with relevant market and production information, technological descriptions and issues, applications, and market factors and potential, and gives an overview of supporting incentives and regulations in major worldwide markets. This study will be of interest to current and potential manufacturers and suppliers of GSBS technologies and components, as well as venture capitalists, entrepreneurs and entrepreneurial companies interested in entering or expanding into the GSBS technology sector. It will also be of interest to corporate planners and strategists, companies involved in the production of batteries, supervisory control and data acquisition (SCADA) control software, and other infrastructure and software required for the implementation of GSBS technologies, as well as other energy efficiency advocacy groups and other public- and private-sector interest groups and market analysts.

SCOPE OF REPORT AND METHODOLOGY
The scope of this investigation includes the major viable GSBS technologies that are currently being implemented in the power generation industry. These technologies are implemented to temporarily store electricity during periods of available generation capacity, for subsequent use during periods of increased demand in support of load leveling, grid balancing, and renewable energy integration and intermittent generation balancing. The grid-scale battery storage technologies discussed in this report are increasingly deployed in support of intermittent renewable energy sources, such as solar and wind energy, which frequently generate power outside of peak demand periods. In these cases, GSBS technologies can facilitate delivery of renewable power to end users during periods of high and peak use, in support of utility-level regulations and greenhouse gas (GHG) emissions reduction strategies, which are increasingly common in the global electricity market.

The market analysis provided in this report is based on a variety of data sources. These include the most recent government, industry and academic data regarding the projected level of demand for utility-scale electricity storage technologies that could potentially translate into grid-scale battery storage (GSBS) projects. These data were supplemented with an evaluation of major utility electricity storage (UES) and renewable (solar and wind) projects that have been announced or that are currently being proposed. Therefore, this report provides a comprehensive review of available data to provide a realistic, robust and accurate assessment of this quickly changing market.

BCC Research analyzes each major viable grid-scale battery storage technologies, determines their current market status, examines their impact on future markets and presents forecasts of growth over the next ten years. Technological issues, including the latest trends, are assessed and discussed, as are the current and likely regulatory environments in support of this industry.

BCC Research analyzes the industry on a worldwide basis in terms of its manufacturing and the deployment of its technologies or products. BCC Research examines government roles in support of grid-scale battery storage (GSBS) technologies worldwide, including regulatory support, government requirements and promotional incentives for various GSBS technologies as relevant and available. BCC Research provides a review of the most relevant GSBS technologies, discusses recent trends in capacity installation and unit sales, and provides industry overviews and market assessments for each GSBS technology.

WORLDWIDE MARKETS
The following list indicates the major worldwide market regional groups that were assessed in support of this study.
-North America: United States, Canada, Mexico.
-Europe: All European nations except Iceland, including the portion of Russia located west of the Ural Mountains.
-Asia-Pacific: All Asia-Pacific countries. The Philippines were considered, but other South Pacific islands are not included. However, many Asian countries do not have significant installed UES capacities.
-Rest of the World: All Latin American, Middle East and African Countries.
 
Throughout the world, the different regions vary considerably in size and projected growth rates.

METHODOLOGY
Both primary and secondary research methodologies were used in preparing this study. Background information, including reviews of each GSBS technology and its implementation status, were collected from government and industry sources. Specific citations and references are provided as needed to support this study, and website links to government and industry studies, white papers, and other relevant information are provided as relevant and available.

BCC Research’s research of present and historic market trends was conducted primarily via phone interviews and Internet research, relying on personal interviews and available governmental data. Provided internal company data and annual documentation of sales relevant to each GSBS technology were also reviewed in order to prepare market assessments. Based on the results of our surveys and research, BCC Research analyzed the potential applications for each technology, and forecast remaining 2015 sales and sales through 2020.

Market sizes and installed capacity figures were calculated based upon data obtained from surveyed parties, as well as published government and industry data sources. Additionally, when available, the data provided in this report were compared with other industry data to ensure relevance, applicability and accuracy.

This report has been compiled by accessing a combination of primary and secondary sources. The following sections were compiled from primary source;
-Industry structure and market overview – analyzed from industry interviews, industry and government data.
-Major companies and company profiles - analyzed from industry interviews, published financial and trade information.
-Market assessment and projections - analyzed from industry interviews, industry and government documents and data, BCC Research calculations.
-Regulatory support for GSBS - analyzed from government documents.

The following sections of the report were analyzed from secondary data sources:
-Review of GSBS technologies and products - analyzed from scientific, government and industry research.

INFORMATION SOURCES
Both primary and secondary research methods were used in preparing this report. BCC Research surveyed more than 64 companies and industry insiders to obtain the data for this study. Included were manufacturers of GSBS technologies, distributors of GSBS technologies, engineering firms involved in the GSBS industry, emerging technology developers, and current and former GSBS project developers, worldwide. Additionally, BCC Research compiled data from current financial and trade information, industry associations, and government sources.
Chapter- 1: INTRODUCTION - Complimentary     5 $0
STUDY GOALS AND OBJECTIVES
REASONS FOR COMPLETING THIS STUDY
INTENDED AUDIENCE
SCOPE OF REPORT AND METHODOLOGY
WORLDWIDE MARKETS
METHODOLOGY
INFORMATION SOURCES
ANALYST'S CREDENTIALS
RELATED BCC RESEARCH REPORTS
BCC RESEARCH WEBSITE
DISCLAIMER

Chapter- 2: SUMMARY 3 $250
Table Summary : GLOBAL MARKET FOR GRID-SCALE BATTERY STORAGE TECHNOLOGIES, THROUGH 2025
Figure Summary : GLOBAL MARKET FOR GRID-SCALE BATTERY STORAGE TECHNOLOGIES, 2014-2025

Chapter- 3: OVERVIEW 73     $2276
WHAT ARE UTILITY-SCALE ELECTRICITY STORAGE TECHNOLOGIES?
BRIEF HISTORY OF BATTERY TECHNOLOGY
OVERALL CHALLENGES FOR THE EES INDUSTRY
CHALLENGES FOR IMPLEMENTING LARGE-SCALE EES
COSTS AND ECONOMIC VIABILITY
BENEFITS OF GRID-SCALE BATTERY STORAGE TECHNOLOGIES
OVERALL BENEFITS OF GRID-SCALE BATTERY STORAGE
DRAWBACKS OF GRID-SCALE BATTERY STORAGE TECHNOLOGIES
OVERALL CHALLENGES FOR GRID-SCALE BATTERY STORAGE
DESCRIPTION OF GRID-SCALE BATTERY STORAGE TECHNOLOGIES AND SYSTEM COMPONENTS
Table 1 : LIST OF GRID-SCALE BATTERY STORAGE TECHNOLOGIES

Chapter- 4: APPLICATIONS FOR ADVANCED BATTERIES IN MICROGRID ENVIRONMENT 10     $312
CUSTOMER OWNED
UTILITY OWNED
MILITARY
ISLAND SYSTEMS
CONCLUDING REMARKS

Chapter- 5: REGULATORY SUPPORT AND INCENTIVES FOR GRID-SCALE BATTERY STORAGE TECHNOLOGIES 99 $3086
REGULATORY SUPPORT AND INCENTIVES
UNITED STATES REGULATORY SUPPORT AND INCENTIVES

Chapter- 6: INDUSTRY STRUCTURE     24 $748
INDUSTRY ORGANIZATION
PLANNING OF GRID-SCALE BATTERY ENERGY STORAGE SYSTEMS
GLOBAL INDUSTRY STRUCTURE
UES INDUSTRY ORGANIZATIONS

Chapter- 7: MAJOR TECHNOLOGY MARKETS AND TRENDS IN PRICE AND PERFORMANCE     10 $312
LEAD-ACID BATTERIES
LITHIUM-ION BATTERIES
SODIUM-BASED BATTERIES
FLOW BATTERIES
OTHER BATTERY DESIGNS

Chapter- 8: MAJOR REGIONAL MARKETS AND TRENDS IN PRICE AND PERFORMANCE 42 $1309
REGIONAL MARKETS AND TECHNOLOGY CHARACTERISTICS
GSBS MARKET PREREQUISITES
GLOBAL MARKET CENTERS
OVERVIEW OF THE GLOBAL GSBS TECHNOLOGY MARKET AND REGIONAL COMPARISON

Chapter- 9: COMPANY PROFILES 50 $1559
LEADING FIVE GRID-SCALE BATTERY STORAGE COMPANIES
OTHER LEADING MANUFACTURERS AND SUPPLY COMPANIES IN THE GRID-SCALE BATTERY INDUSTRY

Chapter- 10: APPENDIX I 3 $94
CURRENCY CODES
ABBREVIATIONS OF UNITS OF MEASUREMENT
ACRONYMS

Chapter- 11: APPENDIX II 1 $31
REFERENCES

List of Tables

Summary Table : GLOBAL MARKET FOR GRID-SCALE BATTERY STORAGE TECHNOLOGIES, THROUGH 2025
Table 1 : LIST OF GRID-SCALE BATTERY STORAGE TECHNOLOGIES
Table 2 : LEAD-ACID BATTERY COSTS BY APPLICATION*,2003
Table 3 : LEAD-ACID AND ADVANCED LEAD-ACID BATTERY COSTS BY APPLICATION, 2020
Table 4 : LITHIUM-ION BATTERY FEATURES
Table 5 : LITHIUM-ION BATTERY COSTS BY BENEFIT, 2010
Table 6 : SODIUM-SULFUR BATTERY COSTS BY APPLICATION
Table 7 : SODIUM-SULFUR BATTERY COSTS BY BENEFIT
Table 8 : TECHNICAL CHARACTERISTICS OF VRB SYSTEMS BY APPLICATION
Table 9 : VRB CAPITAL AND OPERATING COSTS
Table 10 : VRB COSTS BY BENEFIT
Table 11 : ZINC-BROMINE BATTERY COSTS BY APPLICATION, 2003
Table 12 : ZINC-BROMINE BATTERY COST BY SIZE AND APPLICATION, 2010
Table 13 : NICKEL-CADMIUM BATTERY COSTS BY APPLICATION, 2003
Table 14 : NICKEL-CADMIUM BATTERY FEATURES
Table 15 : COMPARISON OF SELECT BATTERY TECHNOLOGIES.
Table 16 : SUMMARY OF THE MAIN MECHANICAL AND ELECTRICAL ENERGY STORAGE SYSTEMS.(MW, $/KWH, MWH)
Table 17 : PRESENT WORTH COST OF 10-YEAR OPERATION IN YEAR 1, BY TECHNOLOGY/USE, 2011
Table 18 : UTILITY APPLICATIONS OF GRID STORAGE BATTERY STORAGE TECHNOLOGIES
Table 19 : RENEWABLE ELECTRICITY PRODUCTION TAX CREDIT: IN-SERVICE DEADLINE, 2014
Table 20 : TAX CREDIT FOR PHOTOVOLTAICS (PV) AND SOLAR THERMAL ELECTRIC SYSTEMS VARIATION OVER 10 YEAR PERIOD
Table 21 : ARIZONA RENEWABLE ENERGY AND DISTRIBUTED RENEWABLE QUOTAS, 2006-2025
Table 22 : BASE PRICE OF ENERGY AND TIME OF DELIVERY MULTIPLIERS
Table 23 : COLORADO RENEWABLE ENERGY PROPERTY TAX ASSESSMENT COST THRESHOLD VALUES, 2009
Table 24 : COLORADO RENEWABLE PORTFOLIO STANDARD QUOTAS FOR INVESTOR-OWNED UTILITIES, 2007-2020
Table 25 : COLORADO RENEWABLE PORTFOLIO STANDARD QUOTAS FOR WHOLESALE DISTRIBUTED GENERATION OR RETAIL DG CARVE-OUT, 2011-2020
Table 26 : COLORADO RENEWABLE PORTFOLIO STANDARD QUOTAS FOR ELECTRIC COOPERATIVES AND MUNICIPAL UTILITIES, 2008-2020
Table 27 : MAINE RENEWABLES PORTFOLIO STANDARD CLASS I STANDARD SCHEDULE, 2008-2017
Table 28 : MARYLAND RENEWABLE ENERGY PORTFOLIO STANDARD COMPLIANCE REQUIREMENTS, 2006-2022
Table 29 : MICHIGAN RENEWABLE ENERGY STANDARD, ANNUAL BENCHMARKS, 2012-2015
Table 30 : NEW MEXICO RENEWABLE ENERGY PRODUCTION TAX INCENTIVE
Table 31 : TEXAS RENEWABLE GENERATION REQUIREMENT COMPLIANCE SCHEDULE, 2007-2015
Table 32 : ENERGY RESEARCH UNDER FP7
Table 33 : EXISTING AND PLANNED (PROPOSED, UNDER CONSTRUCTION, CONTRACTED, ANNOUNCED) U.S. ENERGY STORAGE TECHNOLOGIES, SPLIT BY CAPACITY, 2015
Table 34 : EXISTING AND PLANNED (PROPOSED, UNDER CONSTRUCTION, CONTRACTED, ANNOUNCED) U.S. ENERGY STORAGE TECHNOLOGIES, SPLIT BY NUMBER OF PROJECTS, 2015
Table 35 : ENERGY STORAGE APPLICATIONS BY CAPACITY
Table 36 : MAJOR NORTH AMERICAN GSBS COMPONENT MANUFACTURERS AND ENGINEERS
Table 37 : MAJOR EUROPEAN GSBS COMPONENT MANUFACTURERS AND ENGINEERS
Table 38 : MAJOR ASIAN UES COMPONENT MANUFACTURERS AND ENGINEERS
Table 39 : MAJOR UES INDUSTRY GROUPS AND ORGANIZATIONS
Table 40 : PROJECTED LEAD-ACID BATTERIES NEW CAPACITY AND MARKET SIZES, THROUGH 2025
Table 41 : PROJECTED LITHIUM-ION BATTERIES NEW CAPACITY AND MARKET SIZES, THROUGH 2025
Table 42 : PROJECTED SODIUM-BASED BATTERIES NEW CAPACITY AND MARKET SIZES, THROUGH 2025
Table 43 : PROJECTED FLOW BATTERIES NEW CAPACITY AND MARKET SIZES, THROUGH 2025
Table 44 : PROJECTED OTHER ELECTROCHEMISTRY BATTERY NEW CAPACITY AND MARKET SIZES, THROUGH 2025
Table 45 : PREREQUISITES FOR GSBS TRACTION IN REGIONAL MARKETS
Table 46 : PROJECTED NORTH AMERICAN GRID-SCALE BATTERY STORAGE, NEW CAPACITY AND MARKET SIZES, THROUGH 2025
Table 47 : MAJOR HISTORIC GRID-SCALE BATTERY STORAGE PROJECTS IN NORTH AMERICA
Table 48 : U.S. PROJECTED GRID-SCALE BATTERY STORAGE, NEW CAPACITY AND MARKET SIZES, THROUGH 2025
Table 49 : CANADA PROJECTED GRID-SCALE BATTERY STORAGE, NEW CAPACITY AND MARKET SIZES, THROUGH 2025
Table 50 : PROJECTED EUROPEAN GRID-SCALE BATTERY STORAGE, NEW CAPACITY AND MARKET SIZES, THROUGH 2025
Table 51 : GERMAN PROJECTED GRID-SCALE BATTERY STORAGE, NEW CAPACITY AND MARKET SIZES, THROUGH 2025
Table 52 : ITALIAN PROJECTED GRID-SCALE BATTERY STORAGE, NEW CAPACITY AND MARKET SIZES, THROUGH 2025
Table 53 : SPANISH PROJECTED GRID-SCALE BATTERY STORAGE, NEW CAPACITY AND MARKET SIZES, THROUGH 2025
Table 54 : UNITED KINGDOM PROJECTED GRID-SCALE BATTERY STORAGE, NEW CAPACITY AND MARKET SIZE, THROUGH 2025
Table 55 : FRENCH PROJECTED GRID-SCALE BATTERY STORAGE, NEW CAPACITY AND MARKET SIZE, THROUGH 2025
Table 56 : MAJOR HISTORIC GRID-SCALE BATTERY STORAGE PROJECTS IN THE ASIA-PACIFIC REGION
Table 57 : PROJECTED ASIA-PACIFIC GRID-SCALE BATTERY STORAGE, NEW CAPACITY AND MARKET SIZE, THROUGH 2025
Table 58 : CHINESE PROJECTED GRID-SCALE BATTERY STORAGE, NEW CAPACITY AND MARKET SIZE, THROUGH 2025
Table 59 : JAPANESE PROJECTED GRID-SCALE BATTERY STORAGE, NEW CAPACITY AND MARKET SIZE, THROUGH 2025
Table 60 : SOUTH KOREAN PROJECTED GRID-SCALE BATTERY STORAGE, NEW CAPACITY AND MARKET SIZE, THROUGH 2025
Table 61 : SELECTED AUSTRALIAN ENERGY STORAGE FACILITIES
Table 62 : AUSTRALIAN PROJECTED GRID-SCALE BATTERY STORAGE, NEW CAPACITY AND MARKET SIZE, THROUGH 2025
Table 63 : MAJOR HISTORIC GRID-SCALE BATTERY STORAGE PROJECTS IN THE REST OF THE WORLD REGION
Table 64 : PROJECTED REST OF THE WORLD GRID-SCALE BATTERY STORAGE, NEW CAPACITY AND MARKET SIZE, THROUGH 2025
Table 65 : GLOBAL GRID-SCALE BATTERY STORAGE MARKET BY REGION, THROUGH 2025
Table 66 : PROJECTED GRID-SCALE BATTERY STORAGE TECHNOLOGY NEW CAPACITY, THROUGH 2025

List of Figures

Summary Figure : GLOBAL MARKET FOR GRID-SCALE BATTERY STORAGE TECHNOLOGIES, 2014-2025
Figure 1 : U.S. RESIDENTIAL RETAIL ELECTRICITY PRICE, 1960-2010
Figure 2 : STYLIZED REPRESENTATION OF A DAILY LOAD CURVE
Figure 3 : EXAMPLE OF OFFSET RENEWABLE GENERATION: WIND GENERATION PROFILE FOR CALIFORNIA
Figure 4 : OVERVIEW OF BATTERY ELECTROCHEMISTRIES
Figure 5 : LEAD-ACID BATTERY FUNCTION AND COMPONENTS
Figure 6 : LITHIUM-ION BATTERY FUNCTION AND COMPONENTS
Figure 7 : MAP OF PLANNED AND EXISTING LITHIUM-ION DEMONSTRATIONS, 2009
Figure 8 : SODIUM-SULFUR CELL CONSTRUCTION
Figure 9 : MAJOR ADVANTAGES OF NAS OVER OTHER BATTERY TECHNOLOGIES
Figure 10 : FLOW BATTERY SYSTEM
Figure 11 : FLOW BATTERY CELL CONSTRUCTION
Figure 12 : COMPONENT COSTS OF A VRB AS A PERCENTAGE OF TOTAL CAPITAL COST
Figure 13 : PRESENT CAPITAL COSTS ESTIMATES OF VRB SYSTEMS
Figure 14 : ZINC-BROMINE BATTERY COMPOSITION
Figure 15 : NICKEL-CADMIUM CELL COMPOSITION
Figure 16 : METAL AIR BATTERY COMPOSITION
Figure 17 : GENERAL MOLTEN AIR BATTERY COMPOSITION
Figure 18 : LIQUID METAL BATTERY COMPOSITION
Figure 19 : POWER RATING AND DISCHARGE DURATION AT RATED POWER
Figure 20 : A COMPARISON OF TECHNOLOGY MATURITY AND ANTICIPATED R&D EXPENDITURE
Figure 21 : PER UNIT ENERGY AND POWER CAPITAL COSTS BY TECHNOLOGY
Figure 22 : SERVICES PROVIDED BY ENERGY STORAGE TECHNOLOGIES
Figure 23 : COMPARISON OF PHS, CAES, AND EMERGING TECHNOLOGIES, SYSTEM RATINGS
Figure 24 : COMPARISON OF PHS, CAES, AND OTHER EMERGING GRID-SCALE STORAGE TECHNOLOGIES COSTS
Figure 25 : MATURITY STAGE OF ENERGY STORAGE SYSTEMS
Figure 26 : ISLAND RENEWABLE ENERGY PRODUCTION, IMPACT OF BATTERY STORAGE
Figure 27 : IMPACT OF PRODUCTION TAX CREDIT EXPIRATION AND EXTENSION ON U.S. ANNUAL INSTALLED WIND CAPACITY
Figure 28 : INDUSTRY STRUCTURE FOR PROCUREMENT/INSTALLATION OF GSBS TECHNOLOGIES
Figure 29 : BATTERY MARKET SUPPLY CHAIN
Figure 30 : EXAMPLE OF A SIMPLE ARBITRAGE TRADING STRATEGY FOR THE GERMAN SPOT MARKET
Figure 31 : GSBS COSTS FOR DIFFERENT CAPACITIES
Figure 32 : U.S. UES STORAGE TECHNOLOGIES IN USE BY MARKET SHARE
Figure 33 : ANNUAL SOLAR PV INSTALLATIONS IN THE UNITED STATES, BY TYPE 2010-2014
Figure 34 : PROJECTED LEAD-ACID BATTERIES MARKET SIZE, 2014-2025
Figure 35 : PROJECTED LITHIUM-ION BATTERIES MARKET SIZE, 2014-2025
Figure 36 : PROJECTED SODIUM-BASED BATTERIES MARKET SIZE, 2014-2025
Figure 37 : PROJECTED FLOW BATTERIES MARKET SIZE, 2014-2025
Figure 38 : PROJECTED OTHER ELECTROCHEMISTRY BATTERY MARKET SIZE, 2014-2025
Figure 39 : PROJECTED NORTH AMERICAN GRID-SCALE BATTERY STORAGE MARKET SIZE, 2014-2025
Figure 40 : U.S. BEHIND-THE-METER ENERGY STORAGE DEPLOYMENTS
Figure 41 : PROJECTED U.S. GRID-SCALE BATTERY STORAGE MARKET SIZE, 2014-2025
Figure 42 : CANADA PROJECTED GRID-SCALE BATTERY STORAGE MARKET SIZE, 2014-2025
Figure 43 : PROJECTED EUROPEAN GRID-SCALE BATTERY STORAGE MARKET SIZE, 2014-2025
Figure 44 : GERMAN PROJECTED GRID-SCALE BATTERY STORAGE MARKET SIZE, 2014-2025
Figure 45 : ITALIAN PROJECTED GRID-SCALE BATTERY STORAGE MARKET SIZES, 2014-2025
Figure 46 : SPANISH PROJECTED GRID-SCALE BATTERY STORAGE MARKET SIZE, 2014-2025
Figure 47 : UNITED KINGDOM PROJECTED GRID-SCALE BATTERY STORAGE MARKET SIZE, 2014-2025
Figure 48 : FRENCH PROJECTED GRID-SCALE BATTERY STORAGE MARKET SIZE, 2014-2025
Figure 49 : PROJECTED ASIA-PACIFIC GRID-SCALE BATTERY STORAGE MARKET SIZE, 2014-2025
Figure 50 : CHINESE PROJECTED GRID-SCALE BATTERY STORAGE MARKET SIZE, 2014-2025
Figure 51 : JAPANESE PROJECTED GRID-SCALE BATTERY STORAGE MARKET SIZE, 2014-2025
Figure 52 : SOUTH KOREAN PROJECTED GRID-SCALE BATTERY STORAGE MARKET SIZE, 2014-2025
Figure 53 : AUSTRALIAN PROJECTED GRID-SCALE BATTERY STORAGE MARKET SIZE, 2014-2025
Figure 54 : PROJECTED REST OF THE WORLD GRID-SCALE BATTERY STORAGE MARKET SIZE, 2014-2025
Figure 55 : GLOBAL GRID-SCALE BATTERY STORAGE MARKET BY REGION, 2014-2025
Figure 56 : PROJECTED GRID-SCALE BATTERY STORAGE TECHNOLOGY NEW CAPACITY, 2015-2025

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