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バッテリケミストリの進化がエネルギー貯蔵用途の特殊化を大いに促進

Advances in Battery Chemistries Drive Greater Specialization across Energy Storage Applications

 

出版社 出版年月ファイ ル/CD-ROM価格 ページ数
Navigant Research
ナビガントリサーチ
2018年5月US$1,800
1-5ユーザライセンス(PDF)
18

サマリー

米国調査会社ナビガントリサーチ(Navigant Research)の調査レポート「バッテリケミストリの進化がエネルギー貯蔵用途の特殊化を大いに促進」は、交通運輸やグリッドストレージなどのさまざまな利用ケースにおける高度バッテリー技術の作成で科学者やエンジニアが行う漸進的な改善を明示している。従来型の仕様、欠点の報告、リチウムイオン電池・フロー電池・高度鉛蓄電池・ナトリウムイオン二次電池技術の今後のロードマップについて査定している。個々のセルやシステムレベルの革新的な事案を概説し、それが高度電池産業にもたらす影響について論じている。これらの新しい電池市場について詳述し、政府行政、メーカー、企業オーナーへの重要な助言も行っている。

Research surrounding improved battery chemistries is progressing quickly and will soon have a significant impact on the battery industry. Lithium ion (Li-ion) is the primary chemistry used today for applications that require flexible operating parameters. However, several emerging applications such as materials handling, advanced transportation, and artificial intelligence (AI) call for more robust design, flexibility, and duration considerations. Li-ion’s current grasp on industrial-scale applications is weak because of input costs, safety issues, and materials scarcity. It is thus vulnerable compared to optimized chemistries that solve some or all of those problems.

Advances in battery technology have enabled energy storage to meet the performance requirements for short-duration power-focused and long-duration energy-focused applications. These successes are driving revised market rules and regulations that will enable energy storage systems to deliver load management benefits to a diverse customer base. New business models are being driven by the emergence of predictable revenue flows for advanced battery asset owners. Each emerging advanced battery application—whether it be materials handling vehicles or lift/elevation energy for electric aircraft—will be required to meet different power, energy, reliability, safety, lifecycle, and cost criteria. While Li-ion batteries will continue to improve, new technologies like flow, advanced lead-acid, and sodium-based batteries will eventually be optimized for specialized applications, especially when more energy and faster charging are required.

This Navigant Research report explores the incremental improvements that scientists and engineers are making in advanced battery technologies that can serve diverse use cases, including transportation and grid storage. The study analyzes the traditional specifications, reported shortcomings, and future roadmaps of Li-ion, flow, advanced lead-acid, and sodium-based battery technologies. Navigant Research outlines the innovations happening on the individual cell and system levels and how these will shape the advanced battery industry. Emerging markets for these batteries are detailed and key recommendations are provided for governments, manufacturers, and business owners.

Key Questions Addressed:
  • What are the leading advanced electrochemical battery technologies currently in the market?
  • What are the key metrics used to evaluate market performance in the advanced battery industry?
  • What incremental improvements are being made to each of these advanced battery chemistries?
  • What applications are these batteries currently serving?
  • How do adjacent battery markets (e.g., EVs and consumer electronics) affect business strategy in the advanced battery market?
  • What should governments, manufacturers, and integrators do to ensure the continued success of advanced battery technologies?
Who needs this report?
  • Advanced battery manufacturers and vendors
  • Stationary energy storage customers
  • Energy storage technology vendors
  • Energy storage software providers
  • Electric utilities
  • Project developers
  • Systems integrators
  • Investor community


目次

Spark

Context

Recommendations

Advanced Batteries Will Unlock Changes to Critical Industries

Key Metrics Will Shape the Emerging Markets for Advanced Batteries

Traditional Advanced Battery Markets Are Spurring New Advancements

Transportation

Stationary Storage

Electrochemical Advanced Batteries Have the Greatest Potential to Shape Key Industries

Li-Ion Batteries

Flow Batteries

Advanced Lead-Acid Batteries

Sodium-Based Batteries

Research Is Paving the Way for Dynamic Advanced Batteries

Li-Ion Batteries Will Remain the Technology Choice for Storage Projects

Flow Batteries Will Challenge Li-Ion Market Share

Advanced Lead-Acid Batteries Benefit from Simple Design and Mature Supply Chains

Sodium-Based Batteries Will Have Lower Prices Than Current Li-Ion Batteries

Stakeholders Must Identify Target Applications and Invest

High Energy Advanced Batteries Will Support Electric Aviation

Virtual Reality and AI Cannot Exist without Electrochemical Batteries

Materials Handling Industry Is Benefiting from Advanced Batteries

Businesses and Governments Must Step Up and Lead

 

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