【レポートの概要(一部)】
1. Executive Summary
1.1 Next-Generation Energy Storage Technologies Market Overview
1.2 Market Definition
1.3 Methodology
1.4 Why You Should Read This Report?
1.5 Benefits of This Report
1.6 Structure of this Report
1.7 Key Questions Answered by This Analytical Report
1.8 Who is this Report for?
1.9 Frequently Asked Questions (FAQ)
1.10 Associated Visiongain Reports
1.11 About Visiongain
2. An Introduction to Established and Emerging Energy Storage Technologies
2.1 Categorisation of Energy Storage Technologies
2.2 Installed Energy Storage Capacity
2.3 The Rise of Emerging Energy Storage Technologies
2.4 The Key Applications of Established and Emerging Energy Storage Technologies
3. The Drivers and Restraints of Next-Generation Energy Storage Technologies
3.1 An Introduction to the Dynamics of the Market
3.2 The Factors that Will Drive and Restraint the Market
3.2.1 Rising Energy Prices Indirectly Incentivise EST
3.2.2 Investments in Research, Development and Demonstration
3.2.3 The Importance of Renewable Energy Integration
3.2.4 Smart Grids and Distributed Power Generation Systems
3.2.5 Growing Electricity Demand
3.2.6 The Developing Alternative Vehicle Market as a Growth Factor
3.2.7 The High Capital Costs of Emerging Energy Storage Technologies
3.2.8 Limited Cost Recovery Opportunities
3.2.9 The Policy and Regulatory Challenges Ahead
3.2.10 The Impact of a Weak Market Demand for EST
3.2.11 Geographical and Spatial Constraints of Mature Energy Storage Technologies
3.2.12 Conservatism in the Utility Industry
3.2.13 The Need for Large-Scale Demonstration Projects
3.2.14 Raw Material Availability
3.2.15 Technology Development and Deployment Patterns
3.2.16 The Limitations of Established Energy Storage Technologies
3.2.17 Long Investment Cycles
3.2.18 Opportunities for Home Energy Storage and Arbitrage
4. Next-Generation Mechanical Energy Storage Technologies
4.1 Innovative Pumped Hydro Storage
4.1.1 An Introduction to Innovative Pumped Hydro Storage
4.1.2 The Nature of the Innovation
4.1.3 The Performance Characteristics Of Innovative PHS Installations
4.1.4 The Applications and Key Competitors of Innovative PHS
4.1.5 Current Deployment of Innovative PHS
4.1.6 Drivers and Restraints of Innovative PHS
4.1.7 The Outlook for Innovative PHS
4.1.8 Companies and Stakeholders Involved in the Innovative PHS Market
4.2 Adiabatic and Isothermal Compressed Air Energy Storage
4.2.1 An Introduction to Adiabatic and Isothermal Compressed Air Energy Storage
4.2.2 The Nature of the Innovation
4.2.3 The Performance Characteristics of Adiabatic and Isothermal CAES
4.2.4 The Applications and Key Competitors of Advanced CAES
4.2.5 Current Deployment of Compressed Air Energy Storage
4.2.6 Drivers and Restraints of Advanced Compressed Air Energy Storage
4.2.7 The Outlook for Advanced Compressed Air Energy Storage
4.2.8 Companies and Stakeholders Involved in the Advanced CAES Market
4.3 Liquid Aid Energy Storage (LAES)
4.3.1 An Introduction to Liquid Air Energy Storage
4.3.2 The Nature of the Innovation
4.3.3 The Performance Characteristics of Liquid Air Energy Storage
4.3.4 The Applications and Key Competitors of Liquid Air Energy Storage
4.3.5 Current Deployment of Liquid Air Energy Storage
4.3.6 Drivers and Restraints of the Liquid Air Energy Storage Market
4.3.7 The Outlook for Liquid Air Energy Storage
4.3.8 Companies and Stakeholders Involved in the Liquid Air Energy Storage Market
5. Next-Generation Chemical Energy Storage Technologies
5.1 Large-Scale Hydrogen Energy Storage Systems and Hydrogen Fuel Cells
5.1.1 An Introduction to Large-Scale Hydrogen Energy Storage Systems and Hydrogen Fuel Cells
5.1.2 The Nature of the Innovation
5.1.3 The Performance Characteristics of Large-Scale Hydrogen Energy Storage Systems and Hydrogen Fuel Cells
5.1.4 The Applications and Key Competitors of Large-Scale Hydrogen Storage Systems and Hydrogen Fuel Cells
5.1.5 Current Deployment of Large-Scale Hydrogen Energy Storage Systems and Hydrogen Fuel Cells
5.1.6 Drivers and Restraints of Large-Scale Hydrogen Storage Systems and Hydrogen Fuel Cells
5.1.7 The Outlook for Large-Scale Hydrogen Energy Storage Systems and Hydrogen Fuel Cells
5.1.8 Companies and Stakeholders Involved in the Hydrogen and Fuel Cells Energy Storage Market
6. Next-Generation Electrical Energy Storage Technologies
6.1 Superconducting Magnetic Energy Storage (SMES)
6.1.1 An Introduction to Superconducting Magnetic Energy Storage (SMES)
6.1.2 The Nature of the Innovation
6.1.3 The Performance Characteristics of Superconducting Magnetic Energy Storage
6.1.4 The Applications and Key Competitors of Superconducting Magnetic Energy Storage
6.1.5 Current Deployment of Superconducting Magnetic Energy Storage
6.1.6 Drivers and Restraints of Superconducting Magnetic Energy Storage
6.1.7 The Outlook for Superconducting Magnetic Energy Storage
6.1.8 Companies and Stakeholders Involved in the Superconducting Magnetic Energy Storage Market
7. Next-Generation Electrochemical Energy Storage Technologies
7.1 An Introduction to Next-Generation Battery Technologies
7.2 The Key Drivers of Innovation in the Market
7.3 Key Patterns of Innovation in the Market
7.4 Lithium-air (Li-Air)
7.4.1 Nature of the Innovation
7.4.2 The Performance Characteristics of Lithium Air Batteries
7.4.3 The Applications and Key Competitors of Lithium Air Batteries
7.4.4 Current Deployment of Lithium Air Batteries
7.4.5 The Drivers and Restraints of the Lithium Air Batteries Market
7.4.6 The Outlook for Lithium Air Batteries
7.4.7 Key Companies Involved in the Lithium Air Battery Market
7.5 Lithium-Sulphur (Li-S)
7.5.1 Nature of the Innovation
7.5.2 The Performance Characteristics of Lithium Sulphur Batteries
7.5.3 The Applications and Key Competitors of Lithium Sulphur Batteries
7.5.4 Current Deployment of Lithium Sulphur Batteries
7.5.5 The Drivers and Restraints of the Lithium Sulphur Battery Market
7.5.6 The Outlook for Lithium Sulphur Batteries
7.5.7 Key Companies and Stakeholders Involved in the Lithium Sulphur Battery Market
7.6 Magnesium-Ion (Mg-Ion)
7.6.1 Nature of the Innovation
7.6.2 The Performance Characteristics of Magnesium Ion Batteries
7.6.3 The Applications and Key Competitors of Magnesium Ion Batteries
7.6.4 Current Deployment of Magnesium Ion Batteries
7.6.5 The Drivers and Restraints of Magnesium Ion Batteries
7.6.6 The Outlook for Magnesium Ion Batteries
7.6.7 Key Companies and Stakeholders Involved in the Magnesium Ion Battery Market
7.7 Zinc-Air (Zn-air)
7.7.1 Nature of the Innovation
7.7.2 The Performance Characteristics of Zinc Air Batteries
7.7.3 The Main Applications and Key Competitors of Zinc Air Batteries
7.7.4 Current Deployment of Zinc Air Batteries
7.7.5 The Drivers and Restraints of the Zinc Air Battery Market
7.7.6 The Outlook for Zinc Air Batteries
7.7.7 Key Companies and Stakeholders in the Zinc Air Battery Market
7.8 Concluding Remarks on Emerging Battery Storage Technologies
8. Expert Opinions
8.1 Expert Interview with Paul DiRenzo, Jr from Peak Hour Power
8.1.1 The Growing Interest in Innovative Pumped Hydro Storage Installations?
8.1.2 The Opportunities and Challenges of Seawater PHS
8.1.3 The Competition of Other Next-Generation Bulk Storage Technologies
8.2 Expert Interview with Giw Zanganeh, Airlight Energy
8.2.1 Latest Developments at Airlight Energy
8.2.2 CAES and Thermal Energy Storage in the Context of Other ESTs
8.2.3 The Market Space and Applications of Thermal Energy Storage
8.2.4 The Maturity and Key Markets of the AA-CAES Technology
8.3 Expert Interview with Gareth Brett and Emma Gibson, Highview Power
8.3.1 Latest Developments at Highview Power
8.3.2 Liquid Air Energy Storage Technology
8.3.3 The Maturity and Commercial Viability of the Technology
8.3.4 The Key Challenges and Competitors
8.3.5 Media Attention and the Hype Surrounding Emerging Technologies
8.3.6 The Technical Specifications and Performance of the Technology
8.3.7 Key Markets and Main Regulatory Drivers/Restraints
8.3.8 The Status of Energy Storage Assets
8.3.9 The Outlook of Next-Generation ESTs
8.4 Expert Interview with Philippe Bouchard, EoS Energy Storage
8.4.1 Latest Developments at EoS Energy Storage
8.4.2 EoS Energy Storage and Next-Generation Battery Chemistries
8.4.3 The Performance Characteristics of Eos Battery Chemistries
8.4.4 The Key Competitors in the Market
8.4.5 The Maturity of the Hybrid Cathode Battery Technology
8.4.6 The Main Patterns of Innovation in the Energy Storage Sector
8.4.7 Key National Markets
9. PEST Analysis of the Next-Generation Energy Storage Market
10. Established and Emerging Energy Storage Technologies, a Comparative Analysis
11. The Global Landscape of the Emerging Energy Storage Technologies Market
11.1 Next-Generation Energy Storage Technologies in North America
11.1.1 Drivers and Restraints of Next-Generation ESTs Development and Deployment in North America
11.2 Next-Generation Energy Storage Technologies in Europe
11.2.1 Drivers and Restraints of Next-Generation ESTs development and Deployment in Europe
11.3 Next-Generation Energy Storage Technologies in Asia
11.3.1 Drivers and Restraints of Next-Generation ESTs development and Deployment in Asia
12. Conclusions and Recommendations
12.1 Drivers and Restraints of the Emerging Energy Storage Technologies Market
12.2 The Outlook for Innovative Pumped Hydro Storage
12.3 The Outlook for Advanced Compressed Air Energy Storage
12.4 The Outlook for Liquid Air Energy Storage
12.5 The Outlook for Large-Scale Hydrogen Storage Systems and Hydrogen Fuel Cells
12.6 The Outlook for Superconducting Magnetic Energy Storage
12.7 The Outlook for Next-Generation Batteries
13. Glossary
【レポート販売概要】
■ タイトル:次世代エネルギー貯蔵技術(EST)の世界市場展望2016■ 英文:Next Generation Energy Storage Technologies (EST) Market Prospects 2016
■ 発行日:2016年4月
■ 調査会社:visiongain
■ 商品コード:VGAIN60616
■ 調査対象地域:グローバル
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