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世界の次世代先進電池市場の分析と予測:リチウム硫黄電池、固体リチウム電池、次世代フロー電池、その他の先進電池

Next-Generation Advanced Batteries

Lithium Sulfur, Lithium Solid-State, Next-Generation Flow, and Other Next-Generation Advanced Batteries: Global Market Analysis and Forecasts

 

出版社 出版年月電子版価格 ページ数図表数
Navigant Research
ナビガントリサーチ
2016年6月US$4,600
1-5ユーザライセンス(PDF)
55 83

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「世界の次世代先進電池市場の分析と予測:リチウム硫黄電池、固体リチウム電池、次世代フロー電池、その他の先進電池」は、世界の次世代先進電池の主要な2つの市場セクターである交通運輸とグリッドタイドの据置型エネルギー貯蔵について査定しています。次世代先進電池に関連する需要と商業化の要因について分析しています。2025年までの世界市場の地域毎、ケミストリ毎、セクター毎の容量と、地域毎の収益を予測しています。次世代電池に関連する主要技術の査定と市場勢力図も記載しています。

目次(抜粋)

  • 次世代先進電池の市場概観
  • 次世代先進電池のケミストリ、需要、商業化の要因
  • 次世代先進電池の技術
  • 次世代先進電池の主要企業
  • 次世代先進電池の市場予測

Despite the progress made to date by commercially available lithium ion (Li-ion), advanced lead-acid, flow, and molten salt batteries, the path toward the commercialization of new battery chemistries continues. Several new battery chemistries are projected to enter the global transportation and grid-tied stationary energy storage markets in the coming years, primarily in North America, Western Europe, and Asia Pacific. The next-generation advanced battery chemistries at laboratory-scale research or pilot-scale production levels today include lithium sulfur (Li-S), lithium solid-state (Li-SS), next-generation flow, and a liquid metal battery.

Li-ion is currently the primary chemistry used for transportation and grid-tied stationary energy storage applications that require next-generation batteries. Yet, there will be limitations to Li-ion over time, including challenges related to energy density, safety, and costs. Li-S, Li-SS, next-generation flow, and other advanced batteries represent potential contenders that may begin to encroach on Li-ion market share as the world’s most flexible battery chemistry in the transportation and stationary energy storage sectors. Meeting and exceeding the safety expectations of Li-ion at lower price points will be paramount for the development of next-generation advanced batteries. According to Navigant Research, global energy capacity for next-generation advanced batteries is expected to grow from 30.2 MWh in 2019 to 6.5 GWh annually in 2025.

This Navigant Research report analyzes the global market for next-generation advanced batteries in two key sectors: transportation (motive) and grid-tied stationary energy storage. The study provides an analysis of the market issues, including demand and commercialization factors, associated with next-generation advanced batteries. Global market forecasts for capacity by region, chemistry, and sector and revenue by region extend through 2025. The report also examines the key technologies issues related to next-generation batteries, as well as the competitive landscape.

Key Questions Addressed:
  • What are the emerging next-generation advanced battery chemistries?
  • Which chemistries are best suited for transportation and stationary energy storage applications?
  • How quickly will the market for each next-generation battery chemistry grow?
  • What is the state of the lithium ion (Li-ion) markets in transportation and stationary energy storage?
  • How will next-generation battery chemistries solve the issues that Li-ion batteries face?
  • What are the realistic expectations of market entry for each next-generation battery chemistry?
Who needs this report?
  • Battery manufacturers
  • Vehicle manufacturers
  • Stationary energy storage systems integrators
  • Stationary energy storage system purchasers
  • Government agencies and regulators
  • Investor community


目次

Table of Contents

1. Executive Summary

1.1  Overview

1.2  Market Focus

1.3  Navigant Research Approach

1.4  Market Forecast

2. Market Issues

2.1      Advanced Battery Chemistries

2.1.1     Lithium Ion Batteries

2.1.2     Advanced Lead-Acid Batteries

2.1.3     Molten Salt Batteries

2.1.4     Flow Batteries

2.2      Market Demand and Future Needs for Advanced Batteries

2.2.1     Transportation Sector Demand

2.2.1.1  Traction Batteries for PEVs

2.2.1.2  Advanced Batteries for Bus, Truck, Rail, and Marine Sectors

2.2.1.3  Next-Generation Advanced Battery Needs for Transportation

2.2.2     Stationary Energy Storage Sector Demand

2.2.2.1  C&I Distributed Energy Storage Applications

2.2.2.2  Utility-Scale Energy Storage Applications

2.2.2.3  Next-Generation Advanced Battery Needs for Stationary Energy Storage

2.3      Commercialization Factors for Next-Generation Advanced Batteries

2.3.1     Established Performance Criteria

2.3.2     Government-Sponsored R&D Support

2.3.3     Strategic Partnerships

3. Technology Issues

3.1      Summary of Next-Generation Technologies

3.2      Next-Generation Advanced Battery Technology Adoption Challenges

3.2.1     Next-Generation Li-Ion

3.2.1.1  Li-S

3.2.1.2  Li-SS

3.2.2     Next-Generation Flow Batteries

3.2.3     Liquid Metal

4. Key Industry Players

4.1      Introduction

4.1.1     24M

4.1.2     Ambri

4.1.3     ESS, Inc.

4.1.4     Lockheed Martin

4.1.5     NOHMs Technologies

4.1.6     OXIS Energy

4.1.7     PATHION

4.1.8     PolyPlus Battery Company

4.1.9     Sakti3

4.1.10   Seeo

4.1.11   Sion Power

4.1.12   Solid Power

4.1.13   WattJoule

5. Market Forecasts

5.1      Overview of Forecasts

5.2      Methodology and Assumptions

5.3      Next-Generation Advanced Batteries for Transportation Sector

5.4      Next-Generation Advanced Batteries for Stationary Energy Storage Sector

5.5      Li-S Batteries

5.6      Li-SS Batteries

5.7      Next-Generation Advanced Flow Batteries

5.8      Other Next-Generation Batteries

5.9      Total Next-Generation Battery Forecast

5.10    Conclusions and Recommendations

6. Acronym and Abbreviation List
7. 
Table of Contents
8
Table of Charts and Figures
9. 
Scope of Study, Sources and Methodology, Notes

List of Charts and Figures

  • Next-Generation Advanced Battery Pack Energy Capacity and Revenue by Region, World Markets: 2016-2025
  • Li-Ion Battery Pack Energy Capacity and Revenue by Region, Transportation Sector, World Markets: 2016-2025
  • Advanced Battery Pack Energy Capacity and Revenue by Region, Stationary Energy Storage Sector, World Markets: 2016-2025
  • Next-Generation Advanced Battery Pack Market Penetration by Chemistry, World Markets: 2016-2025
  • Next-Generation Advanced Battery Pack Market Penetration by Sector, World Markets: 2016-2025
  • Next-Generation Advanced Battery Pack Energy Capacity by Chemistry, Transportation Sector, World Markets: 2016-2025
  • Next-Generation Advanced Battery Pack Energy Capacity by Chemistry, Stationary Energy Storage Sector, World Markets: 2016-2025
  • Lithium Sulfur Battery Pack Energy Capacity and Revenue by Region, World Markets: 2016-2025
  • Lithium Solid-State Battery Pack Energy Capacity and Revenue by Region, World Markets: 2016-2025
  • Next-Generation Flow Battery Pack Energy Capacity and Revenue by Region, World Markets: 2016-2025
  • Other Next-Generation Battery Pack Energy Capacity and Revenue by Region, World Markets: 2016-2025

List of Tables

  • Li-Ion Battery Pack Revenue by Region, Transportation Sector, World Markets: 2016-2025
  • Li-Ion Battery Pack Energy Capacity by Region, Transportation Sector, World Markets: 2016-2025
  • Li-Ion Battery Pack Power Capacity by Region, Transportation Sector, World Markets: 2016-2025
  • Li-Ion Battery Pack Energy Capacity by Vehicle Type, Transportation Sector, World Markets: 2016-2025
  • Li-Ion Battery Pack Power Capacity by Vehicle Type, Transportation Sector, World Markets: 2016-2025
  • Advanced Battery Pack Revenue by Region, Stationary Energy Storage Sector, World Markets: 2016-2025
  • Advanced Battery Pack Energy Capacity by Region, Stationary Energy Storage Sector, World Markets: 2016-2025
  • Overview of Other Next-Generation Battery Chemistries
  • Advanced Battery Pack Power Capacity by Region, Stationary Energy Storage Sector, World Markets: 2016-2025
  • Advanced Battery Pack Energy Capacity by Chemistry, Stationary Energy Storage Sector, World Markets: 2016-2025
  • Advanced Battery Pack Power Capacity by Chemistry, Stationary Energy Storage Sector, World Markets: 2016-2025
  • Key Factors of Transportation Applications for Advanced Batteries
  • Key Factors of Stationary Energy Storage Applications for Advanced Batteries
  • Leading Advanced Battery Chemistries for Transportation and Stationary Energy Storage Applications
  • Overview of Next-Generation Li-Ion Batteries
  • Overview of Leading Next-Generation Flow Batteries
  • Emerging Next-Generation Advanced Battery Companies
  • 24M Profile
  • Ambri Profile
  • ESS, Inc. Profile
  • Lockheed Martin Profile
  • NOHMs Technologies Profile
  • OXIS Energy Profile
  • PATHION Profile
  • PolyPlus Battery Company Profile
  • Sakti3 Profile
  • Seeo Profile
  • Sion Power Profile
  • Solid Power Profile
  • WattJoule Profile
  • Next-Generation Advanced Battery Pack Revenue by Region, All Sectors, World Markets: 2016-2025
  • Next-Generation Advanced Battery Pack Energy Capacity by Region, All Sectors, World Markets: 2016-2025
  • Next-Generation Advanced Battery Pack Power Capacity by Region, All Sectors, World Markets: 2016-2025
  • Next-Generation Advanced Battery Pack Energy Capacity by Sector, World Markets: 2016-2025
  • Next-Generation Advanced Battery Pack Power Capacity by Sector, World Markets: 2016-2025
  • Next-Generation Advanced Battery Pack Energy Capacity by Chemistry, World Markets: 2016-2025
  • Next-Generation Advanced Battery Pack Power Capacity by Chemistry, World Markets: 2016-2025
  • Next-Generation Advanced Battery Pack Energy Capacity by Chemistry, Transportation Sector, World Markets: 2016-2025
  • Next-Generation Advanced Battery Pack Power Capacity by Chemistry, Transportation Sector: 2016-2025
  • Next-Generation Advanced Battery Pack Energy Capacity by Chemistry, Stationary Energy Storage Sector, World Markets: 2016-2025
  • Next-Generation Advanced Battery Pack Power Capacity by Chemistry, Stationary Energy Storage Sector, World Markets: 2016-2025
  • Lithium Sulfur Battery Pack Revenue by Region, World Markets: 2016-2025
  • Lithium Sulfur Battery Pack Energy Capacity by Region, World Markets: 2016-2025
  • Lithium Sulfur Battery Pack Power Capacity by Region, World Markets: 2016-2025
  • Lithium Sulfur Battery Pack Energy Capacity by Sector, World Markets: 2016-2025
  • Lithium Sulfur Battery Pack Power Capacity by Sector, World Markets: 2016-2025
  • Lithium Solid-State Battery Pack Revenue by Region, World Markets: 2016-2025
  • Lithium Solid-State Battery Pack Energy Capacity by Region, World Markets: 2016-2025
  • Lithium Solid-State Battery Pack Power Capacity by Region, World Markets: 2016-2025
  • Lithium Solid-State Battery Pack Energy Capacity by Sector, World Markets: 2016-2025
  • Lithium Solid-State Battery Pack Power Capacity by Sector, World Markets: 2016-2025
  • Next-Generation Flow Battery Pack Revenue by Region, World Markets: 2016-2025
  • Next-Generation Flow Battery Pack Energy Capacity by Region, World Markets: 2016-2025
  • Next-Generation Flow Battery Pack Power Capacity by Region, World Markets: 2016-2025
  • Next-Generation Flow Battery Pack Energy Capacity by Sector, World Markets: 2016-2025
  • Next-Generation Flow Battery Pack Power Capacity by Sector, World Markets: 2016-2025
  • Other Next-Generation Advanced Battery Pack Revenue by Region, World Markets: 2016-2025
  • Other Next-Generation Advanced Battery Pack Energy Capacity by Region, World Markets: 2016-2025
  • Other Next-Generation Advanced Battery Pack Power Capacity by Region, World Markets: 2016-2025
  • Other Next-Generation Advanced Battery Pack Energy Capacity by Sector, World Markets: 2016-2025
  • Other Next-Generation Advanced Battery Pack Power Capacity by Sector, World Markets: 2016-2025
  • Next-Generation Advanced Battery Pack Market Penetration by Chemistry and Sector, World Markets: 2016-2025

 

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プレスリリース

[プレスリリース原文]

Global Energy Capacity for Next-Generation Advanced Batteries is Expected to Reach 6.5 GWh Annually in 2025

New advanced battery chemistries are expected to impact lithium ion’s market share in the transportation and stationary energy storage sectors later in the decade

July 27, 2016

A new report from Navigant Research examines the global market for next-generation advanced batteries in the transportation and grid-tied stationary energy storage sectors, with forecasts for capacity by region, chemistry, and revenue, through 2025.

Several new battery chemistries are projected to enter the global transportation and grid-tied stationary energy storage markets as researchers look to meet and exceed the safety expectations of lithium ion (Li-ion) at lower price points. These new chemistries, which are not yet commercially available, include lithium sulfur (Li-S), lithium solid-state (Li-SS), next-generation flow, and a liquid metal battery, are expected to reach a combined global market penetration of 7.5 percent across the transportation and grid-tied stationary energy storage sector in 2025.  According to a new report from Navigant Research, global energy capacity for next-generation advanced batteries is expected to grow from 30.2 MWh in 2019 to 6.5 GWh annually in 2025.

“The path toward commercialization for next-generation advanced batteries remains challenging, with tremendous obstacles to overcome at each stage of growth,” says William Tokash, senior research analyst with Navigant Research. “Industry players looking to gain a strategic advantage should partner with large, well-funded, committed Li-ion battery technology and energy companies now moving into the energy storage sector.”

Li-ion is currently the primary chemistry used for transportation and grid-tied stationary energy storage applications that require next-generation batteries, yet it presents future limitations, including challenges related to energy density, safety, and costs. According to the report, Li-S, Li-SS, next-generation flow, and other advanced batteries represent potential contenders that may begin to encroach on Li-ion market share as the world’s most flexible battery chemistry in these sectors.

The report, Next-Generation Advanced Batteries, analyzes the global market for next-generation advanced batteries in two key sectors: transportation (motive) and grid-tied stationary energy storage. The study provides an analysis of the market issues, including demand and commercialization factors, associated with next-generation advanced batteries. Global market forecasts for capacity by region, chemistry, and sector and revenue by region extend through 2025. The report also examines the key technologies issues related to next-generation batteries, as well as the competitive landscape.

 

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