List of figures
Figure 1.1 Next-Generation Energy Storage Technologies Market Overview
Figure 1.2 Development Stage of Different Energy Storage Technologies
Figure 1.3 The Performance Characteristics of Advanced and Conventional CAES (Lifecycle-Years, Efficiency %, Capacity, Maturity) on a Metric Standardised for all Emerging Technologies
Figure 2.1 Energy Storage Technologies Categorisation
Figure 2.2 Electricity Storage Matrix: EST Characteristics and Requirements of Key Applications
Figure 2.3 Global EST Market Structure Overview
Figure 2.4 Global Energy Storage Capacity by EST type (GW) 2000-2017
Figure 2.5 Global Energy Storage Capacity by EST type (GW) 2001-2017 (Excluding Pumped Hydro Storage)
Figure 2.6 Key Next-Generation EST Market Structure Overview
Figure 2.7 EST Overview of Types of Applications
Figure 3.1 Industrial Electricity Price History in France, Germany, Italy, UK, Japan, Canada, Spain and the USA 1990-2018 (Pence/kWh)
Figure 3.2 Industrial Electricity Prices for Medium-Sized Industries in European Countries 2007-2018 (EUR/kWh)
Figure 3.3 Industrial Electricity Prices for Medium-Sized Industries in Germany, Spain, France and the United Kingdom 2007-2018 (EUR/kWh)
Figure 3.4 Total Public Energy RD&D Spending of IEA Members 1974-2018 (% of Total RD&D Spending on Energy-Related Projects)
Figure 3.5 Evolution of Total Public Energy RD&D Spending by Selected IEA members 2008-2018 ($m)
Figure 3.6 The Scale and Composition of Installed RES in selected Countries and Regions (GW)
Figure 3.7 Electricity Generated from Renewable Sources, EU28, 1990-2017(TWh, % of Consumption)
Figure 3.8 Number of FCEVs expected to operate in the US, South Korea, Japan and Europe, 2020
Figure 3.9 Technology and Innovation Adoption Lifecycle
Figure 4.1 Global Next Generation Energy Storage Technologies Market Forecast, By Mechanical Energy Storage Technology 2020-2030 (MW, AGR %)
Figure 4.2 Main Types of PHS Installations
Figure 4.3 Evolution of Installed Capacity in the Open-Loop, Closed-Loop and Innovative PHS Submarkets (1926-2015, MW)
Figure 4.4 Main Patterns of Innovation in the Global PHS Sector
Figure 4.5 Average Capacity of Existing and Planned PHS Installations 2020-2030 (Submarket, MW)
Figure 4.6 The Performance Characteristics of Innovative PHS (Lifecycle-years, Efficiency %, Capacity, Maturity) on a Metric Standardized for all Emerging Technologies
Figure 4.7 Main Applications of Innovative PHS
Figure 4.8 Main Competitors of Innovative PHS
Figure 4.9 Key Market Spaces for Innovative PHS
Figure 4.10 Evolution of Installed Capacity in the Innovative PHS Submarket 1966 - 2020 (MW)
Figure 4.11 Total CAPEX on Innovative PHS by National Market (Cumulative to 2019 $m)
Figure 4.12 Structure of the CAES Market
Figure 4.13 Round-Trip Efficiency of Conventional Diabatic CAES and Advanced CAES (%)
Figure 4.14 The Performance Characteristics of Advanced and Conventional CAES (Lifecycle-years, Efficiency %, Capacity, Maturity) on a Metric Standardised for all Emerging Technologies
Figure 4.15 Main Applications of Advanced Compressed Air Energy Storage
Figure 4.16 Main Competitors of Advanced Compressed Air Energy Storage
Figure 4.17 Key Market Spaces for Advanced CAES
Figure 4.18 Installed CAES Capacity by Category: Diabatic, Isothermal and Adiabatic (MW, % of total)
Figure 4.19 Anticipated progress of AA-CAES through the pilot stage onto commercialisation (2014-2020)
Figure 4.20 Selection of Stakeholders and Companies Involved in the Advanced Compressed Air Energy Storage Market
Figure 4.21 The Stages Involved in Liquid Air Energy Storage
Figure 4.22 Round-Trip Efficiency of Liquid Air Energy Storage Variants (Standalone, Integrating Waste Heat and Integrating Waste Cold, %)
Figure 4.23 The Performance Characteristics of Liquid Air Energy Storage (Lifecycle-years, Efficiency %, Capacity, Maturity) on a Metric Standardised for all Emerging Technologies
Figure 4.24 Main Applications of Liquid Air Energy Storage
Figure 4.25 Main Competitors of Liquid Air Energy Storage
Figure 4.26 Key Market Spaces for Liquid Air Energy Storage
Figure 4.27 The Historic and Expected Development of Liquid Air Energy Storage (Conceptualization to Commercialization, 2004-2022)
Figure 4.28 Selection of Stakeholders and Companies Involved in the Liquid Air Energy Storage Market
Figure 5.1 Global Next Generation Energy Storage Technologies Market Forecast, By Chemical Energy Storage Technology 2020-2030 (MW, AGR%)
Figure 5.2 The Fundamentals of Hydrogen Storage and Hydrogen Fuel Cells
Figure 5.3 The Round-Trip Efficiency of Hydrogen Storage by Pathway Variant (Electricity > Gas > Electricity and Heat, Electricity > Gas > Electricity and Electricity > Gas) (%)
Figure 5.4 The Performance Characteristics of Large-Scale Hydrogen Energy Storage Systems and Hydrogen Fuel Cells (Lifecycle-Years, Efficiency %, Capacity, Maturity) on a Metric Standardised for all Emerging Technologies
Figure 5.5 Main Applications of Large-Scale Hydrogen Storage Systems and Hydrogen Fuel Cells
Figure 5.6 Main Competitors of Large-Scale Hydrogen Storage Systems
Figure 5.7 Main Competitors of Hydrogen Fuel Cells
Figure 5.8 Key Market Spaces for Hydrogen Storage and Hydrogen Fuel Cells
Figure 5.9 Cumulative FCEV in Circulation in Leading National and Regional Markets (2013-2018)
Figure 5.10 Hydrogen Fueling Stations in Operation in Leading National and Regional Markets as of 2018
Figure 5.11 The Main Types of Hydrogen Storage
Figure 5.12 Existing and Planned Hydrogen Infrastructure in Leading Global Markets (Hydrogen Fueling Stations) 2018-2025
Figure 5.13 Existing and Planned Fuel Cell Vehicles (Hydrogen Fueling Stations) 2018-2025
Figure 5.14 Existing Alternative Refueling Infrastructure, United States, 2018
Figure 5.15 Selection of Stakeholders and Companies Involved in the Large-Scale Hydrogen Energy Storage Systems and Hydrogen Fuel Cells Market
Figure 6.1 Variants of SMES technology
Figure 6.2 The Performance Characteristics of Superconducting Magnetic Energy Storage (Lifecycle-Years, Efficiency %, Capacity, Maturity) on a Metric Standardised for all Emerging Technologies
Figure 6.3 Main Applications for Superconducting Magnetic Energy Storage
Figure 6.4 Main Competitors of Superconducting Magnetic Energy Storage
Figure 6.5 Key Market Spaces for Superconducting Magnetic Energy Storage
Figure 6.6 Selection of Stakeholders and Companies Involved in the Superconducting Magnetic Energy Storage Market
Figure 7.1 Global Next Generation Energy Storage Technologies Market Forecast, By Electrochemical Energy Storage Technology 2020-2030 (MW, AGR%)
Figure 7.2 Key Emerging Battery Chemistries
Figure 7.3 Li-air Categorisation by Electrolyte
Figure 7.4 The Performance Characteristics of Lithium-Air Batteries (Lifecycle-years, Efficiency %, Capacity, Maturity) on a Metric Standardised for all Emerging Technologies
Figure 7.5 The Performance Characteristics of Lithium-Sulphur Batteries (Lifecycle-years, Efficiency %, Capacity, Maturity) on a Metric Standardised for all Emerging Technologies
Figure 7.6 Main Types of Applications of Lithium-Sulphur Batteries
Figure 7.7 Key Market Spaces for Lithium-Sulphur Batteries
Figure 7.8 Selection of Stakeholders and Companies Involved in the Lithium-Sulphur battery Market
Figure 7.9 Selection of Stakeholders and Companies Involved in the Magnesium-Ion Battery Market
Figure 7.10 The Performance Characteristics of Zinc-Air (Lifecycle-Years, Efficiency %, Capacity, Maturity) on a Metric Standardised for all Emerging Technologies
Figure 7.11 Main Applications of Zinc Air Batteries
Figure 7.12 Selection of Stakeholders and Companies Involved in the Zinc-Air Battery Market
Figure 8.1 Global Next Generation Energy Storage Technologies Market Forecast, By Thermal Energy Storage Technology 2020-2030 (MW, AGR %)
Figure 11.1 EST Characteristics and Requirements of Key Applications
Figure 11.2 Cost and Backup Time Comparison of Power Quality Energy Storage Technologies Except for Pumped Storage (Euro/kWh & hours)
Figure 11.3 Comparison of the Round-trip Efficiency of Key Established and Emerging Energy Storage Technologies (%)
Figure 12.1 Global Next Generation Energy Storage Technologies Market Forecast, By Region 2019-2030 (USD $bn, AGR %)
Figure 12.2 Key National Markets Involved in the Development of Next-Generation Energy Storage Technologies
Figure 12.3 Overview of the Energy Storage Technology Capacity per Region 2019.
Figure 12.4 Overview of the Key Next-Generation ESTs Under Development in North America
Figure 13.1 Top Companies Latest Revenues Overview (2018-2019)
Figure 13.2 Johnson Controls Net Company Revenue 2013-2018 (US$m, AGR %)
Figure 13.3 Johnson Controls Net Sales in the Energy Storage Technologies 2013-2018 (US$m, AGR %)
Figure 13.4 LG Chem Ltd. Total Company Revenue 2014-2018 (US$m, AGR %)
Figure 13.5 Duke Energy Corporation Total Company Revenue 2013-2018 (US$m, AGR %)
Figure 13.6 Duke Energy Corporation Revenues in the Energy Storage Technologies Market 2015-2018 (US$m, AGR %)
Figure 13.7 NextEra Energy, Inc. Operating Revenue 2013-2018 (US$m, AGR %)
Figure 13.8 NextEra Energy, Inc. Operating Revenue in the Renewable Technologies Market 2013-2018 (US$m, AGR %)
Figure 13.9 Edison International Total Company Operating Revenues 2013-2018 (US$m, AGR %)
Figure 13.10 Samsung SDI Co. Ltd. Total Company Revenue 2013-2018 (US$m, AGR %)
Figure 13.11 Samsung SDI Co. Ltd. Revenue from LI-Ion Market 2015-2018 (US$m, AGR %)
Figure 13.12 Mitsubishi Electric Corporation Total Company Revenue 2013-2019 (US$m, AGR %)
Figure 13.13 Mitsubishi Electric Corporation Revenue from Energy and Electric Systems 2013-2019 (US$m, AGR %)
Figure 13.14 BYD Co. Ltd Total Company Revenue 2013-2018 (US$m, AGR %)
Figure 13.15 BYD Co. Ltd Revenue from Rechargeable Battery and Photovoltaic 2013-2018 (US$m, AGR %)
Figure 13.16 Robert Bosch GmbH Total Company Revenue 2013-2018 (US$m, AGR %)
Figure 13.17 Robert Bosch GmbH Revenue from Energy and Building Technology 2013-2018 (US$m AGR%)
Figure 13.18 ABB Group Total Company Revenue 2013-2018 (US$m, AGR %)
Figure 13.19 ABB Group Revenue in the Electrification Products Market 2014-2018 (US$m, AGR %)
Figure 13.20 Tesla Inc. Total Company Revenue 2013-2018 (US$m, AGR %)
Figure 13.21 Tesla Inc. Revenue in the Energy Generation and Storage Market 2016-2018 (US$m, AGR %)
Figure 13.22 Panasonic Corporation Total Company Revenue 2013-2019 (US$m, AGR %)
Figure 13.23 Panasonic Corporation Revenue in the Automotive & Industrial Systems Market 2013-2019 (US$m, AGR %)
Figure 13.24 CATL Corporation Total Company Revenue 2014-2018 (US$m, AGR %)
Figure 13.25 CATL Corporation Revenue in the Battery Systems Market 2014-2018 (US$m, AGR %)
Figure 14.1 Next-Generation Energy Storage Technologies Market Overview
Figure 14.2 Development Stage of Different Energy Storage Technologies
Figure 14.3 Anticipated progress of AA-CAES through the pilot stage onto Commercialisation (2014-2020)
Figure 14.4 The historical Development of Liquid Air Energy Storage (Conceptualization to Commercialization, 2004-2022)
Figure 14.5 Existing and Planned Hydrogen Infrastructure in Leading Global Markets 2018-2025 (Hydrogen Fueling Stations)