再生可能エネルギーの貯蔵:パワーグリッドの間欠管理のバッテリ、フライホイール、溶融塩電池、揚水発電などの技術 / ABI リサーチ

再生可能エネルギーの貯蔵:パワーグリッドの間欠管理のバッテリ、フライホイール、溶融塩電池、揚水発電などの技術

Renewable Energy Storage
Batteries, Flywheels, Molten Salt, Pumped Hydro, and Other Technologies That Help Manage Intermittency in the Power Grid

エネルギーストレージ

出版社	出版日	価格	ページ数	図表数
ABI リサーチ	2010年5月	お問い合わせください	82p	39点

価格・ご注文について

再生可能エネルギーに対して投資する国々は増えているが、太陽光は夜エネルギーを提供できないし、風はとまることもあって発電は一定ではないので、電力のパワーグリッドに太陽光や風力発電を追加することは、やりにくいことである。電力網は、このような予測がしにくい電源に対処できないために、世界の電力会社は、均一化するためのエネルギー貯蔵のソリューションを調査し採用している。エネルギー貯蔵によって、太陽光や風力、揚水発電による余分な発電を蓄積し、太陽が照ろうが照るまいが、風が吹こうが止まろうが、需要にあわせて電力を提供することができる。
この調査レポートは、電力網に現在使用されている最新のエネルギー貯蔵と、調査中の技術を分析し、予測期間中にこれらの技術で先行する世界の電力会社にも注目している。

Nations are increasingly investing in renewable energy, but adding solar and wind power to the electrical power grid can be tricky because solar can't provide energy at night and wind turbines can't generate electricity when the wind stops blowing. The grid can't deal with power sources that it can't predict, so the solution being investigated and adopted by utilities worldwide is the addition of storage to the equation. Storage can absorb extra power generated by solar, wind and even hydroelectric power generation and feed it to the grid during periods of peak demand whether or not the sun shines or the wind blows.

This study examines the types of energy storage currently in use and being investigated, and looks ahead at the extent to which utilities around the world will be able to take increasing advantage of them over the forecast period.

What Questions Does This Report Answer?

Why can't renewable energy sources be integrated easily with today's power grids?
What is the cost threshold at which energy storage technologies may be easily adopted by power companies?
Which energy storage technologies are currently in use by power companies?
Which countries/regions make the greatest use of energy storage technologies?
Which energy storage technologies are heavily dependant on specific geographic features?
Which companies are testing, or implementing, energy storage technologies?

Who Needs This Report?

Energy regulators
Energy storage technology developers
Energy utilities
Public Utility Commissions
Solar (photovoltaic) power generation facilities
Solar thermal power generation facilities
Wind farms

Executive Brief: Top-Line Forecast

Executive Brief: Drivers

Executive Brief: Inhibitors

Executive Brief: Market Share

Executive Brief: Summary and Strategic Recommendations

Section 1.
Executive Summary

1.1. The "Holy Grail"

1.2. Current State of Utility-Scale Energy Storage

1.2.1. Power-Oriented Storage

1.2.2. Energy-Oriented Storage

1.3. Global Forecast Highlights

1.4. Regional Forecast Highlights

1.4.1. North America

1.4.2. Europe

1.4.3. Asia-Pacific

1.4.4. Rest of World

Section 2.
Technology Overview

2.1. Current Renewable Energy Resources

2.1.1. Solar Photovoltaic Power

2.1.1.1. How It Works

2.1.1.2. How Storage Can Help

2.1.2. Wind Power

2.1.2.1. How It Works

2.1.2.2. How Storage Can Help

2.1.3. Hydroelectric Power

2.1.3.1. How It Works

2.1.3.2. How Storage Can Help

2.1.4. Geothermal Power

2.1.4.1. How It Works

2.1.4.2. How Storage Can Help

2.2. Smart Grid

2.2.1. How It Works

2.2.2. Implementation Costs

2.2.3. Challenges

2.2.4. Smart Grid Status

2.3. Energy Storage

2.3.1. How It Will Work with the Smart Grid

2.3.1.1. Community Energy Storage (CES)

2.3.1.2. Bulk Storage

2.4. Varieties of Utility-Scale Energy Storage

2.4.1. Pumped Hydroelectric Energy Storage

2.4.1.1. Challenges

2.4.2. Compressed Air Energy Storage

2.4.2.1. Challenges

2.4.3. Thermal Energy Storage

2.4.3.1. Ice

2.4.3.2. Molten Salt

2.4.3.3. Challenges

2.4.4. Batteries

2.4.4.1. Lithium-Ion Batteries

2.4.4.2. Lead-Acid and Lead-Carbon Batteries

2.4.4.3. Sodium-Sulfur Batteries

2.4.4.4. Flow Battery

2.4.5. Supercapacitors

2.4.6. Flywheels

Section 3.
Business and Regulatory Issues

3.1. Market Challenges

3.1.1. Implementation Costs

3.1.2. Technology Adoption

3.1.3. Business Climate

3.1.4. Regulations

3.2. Market Drivers

3.2.1. Government Incentives

3.2.1.1. North America

3.2.1.1.1. Canada

3.2.1.1.2. United States

3.2.1.2. Asia-Pacific

3.2.1.2.1. Australia

3.2.1.2.2. China

3.2.1.2.3. New Zealand

3.2.1.2.4. Philippines

3.2.1.2.5. India

3.2.1.3. Europe

3.2.2. United Nations Initiatives

Section 4.
Market Outlook

4.1. Forecast Methodology

4.1.1. Primary and Secondary Sources of Information

4.2. Forecasts by Region

4.2.1. North America

4.2.2. Europe

4.2.3. Asia-Pacific

4.2.4. Rest of World

4.3. Forecasts by Technology

4.3.1. Pumped Hydroelectric Energy Storage

4.3.2. Compressed Air Energy Storage (CAES)

4.3.3. Thermal Energy Storage

4.3.3.1. Molten Salt

4.3.3.2. Ice

4.3.4. Batteries

4.3.4.1. Lithium-Ion Batteries

4.3.4.2. Other Battery Technologies

4.3.5. Supercapacitors

4.3.6. Flywheel Energy Storage

Section 5.
Company Profiles

5.1. A123 Systems Inc

5.2. American Electric Power Company, Inc

5.3. Altair Nanotechnologies

5.4. Axion Power

5.5. Beacon Power

5.6. CALMAC Manufacturing Corp

5.7. General Electric

5.8. NGK Insulators

5.9. Saft Group

5.10. SolarReserve

5.11. SolRayo

5.12. SustainX

5.13. ZBB Energy

Section 6.
Industry Directory

Section 7.
Acronyms
Scope of Study
Sources and Methodology
Notes

Tables
Cumulative Utility-Scale Energy Storage CapacityWorld Market, Forecast: 2009 to 2015
Cumulative Photovoltaic InstallationsWorld Market, Forecast: 2008 to 2015
Wind Power Installations and Cumulative CapacityWorld Market, Forecast: 2008 to 2015
Electric Power Generation by SourceUnited States, 2008
Cumulative Investment in Smart GridsWorld Market, Forecast: 2008 to 2015
Energy Storage Technologies Compared
Strengths and Weaknesses of Energy Storage Technologies
US States with Renewable Portfolio Standards
US DOE Project Funding for Energy Storage October 2009
Asia-Pacific Nations with Renewable Portfolio Standards
2020 Renewable Energy Goals, European Nations
Cumulative Utility-Scale Energy Storage CapacityWorld Market, Forecast: 2009 to 2015
Cumulative Utility-Scale Energy Storage CapacityNorth America, Forecast: 2009 to 2015
Cumulative Utility-Scale Energy Storage CapacityEurope, Forecast: 2009 to 2015
Cumulative Utility-Scale Energy Storage CapacityAsia-Pacific, Forecast: 2009 to 2015
Cumulative Utility-Scale Energy Storage CapacityRest of World, Forecast: 2009 to 2015
Pumped Hydroelectric Energy Storage Cumulative CapacityWorld Market, Forecast: 2010 to 2015
Compressed Air Energy Storage Cumulative CapacityWorld Market, Forecast: 2010 to 2015
Thermal Energy Storage (Molten Salt) Cumulative CapacityWorld Market, Forecast: 2010 to 2015
Thermal Energy Storage (Cooling) Cumulative CapacityWorld Market, Forecast: 2009 to 2015
Lithium-Ion Battery Revenue by ApplicationWorld Market, Forecast: 2009 to 2015
Other Battery Technology Utility Energy Storage RevenueWorld Market, Forecast: 2009 to 2015
Supercapacitor Revenue by ApplicationWorld Market, Forecast: 2009 to 2015
Flywheel Utility Energy Storage RevenueWorld Market, Forecast: 2009 to 2015

Charts
Cumulative Utility-Scale Energy Storage Capacity World Market, Forecast: 2009 to 2015
Pumped Hydroelectric Energy Storage Cumulative Capacity World Market, Forecast: 2010 to 2015
Cumulative Utility-Scale Energy Storage CapacityWorld Market, Forecast: 2009 to 2015
Pumped Hydroelectric Energy Storage Cumulative CapacityWorld Market, Forecast: 2010 to 2015
Compressed Air Energy Storage Cumulative CapacityWorld Market, Forecast: 2010 to 2015
Thermal Energy Storage (Cooling) Cumulative CapacityWorld Market, Forecast: 2009 to 2015
Lithium-Ion Battery Revenue by ApplicationWorld Market, Forecast: 2009 to 2015
Other Battery Technology Utility Energy Storage RevenueWorld Market, Forecast: 2009 to 2015
Supercapacitor Revenue by ApplicationWorld Market, Forecast: 2009 to 2015
Flywheel Utility Energy Storage RevenueWorld Market, Forecast: 2009 to 2015