氧化还原液流电池的全球市场：市场预测（共 26 个）、路线图、技术、製造商分析（48 家公司）、最新研究管线（2024-2044 年）

分析概述

价值 50 亿美元的氧化还原液流电池 (RFB) 公司出现

由于彻底的改进和重新定位，全球 RFB 市场预计将扩大到超过 220 亿美元。 引领向新技术和市场优先事项的转变将创造一个价值 50 亿美元的市场领导者。

变化因子

事实证明，三个新兴趋势对 RFB 至关重要。 它们是根本不同的设计，最大和最新的机会不仅包括微电网，例如 LDES（长期储能技术）和超越电网。

随着新技术和大规模销售，RFB 的成本将会降低。 它将从根本上改进规格，将尺寸缩小一半，将成本降低 60%，扩大温度范围，并消除有害材料和昂贵的金属。 然而，RFB 仍然畅销还有其他原因。 并且将有10亿美元的钒RFB公司。

本报告分析了全球氧化还原液流电池（RFB）市场，并提供了技术概述、近期技术发展状况和正在开发的主要技术、市场的基本结构、最新情况、驱动因素以及未来发展趋势。 main 我们收集并提供公司简介等资讯（总共58 家公司，其中包括48 家製造商）。

目录

第 1 章执行摘要/结论

第 2 章简介

• 摘要：电气化和固定存储将取代便携式存储
• 全球风能和太阳能发电的成长
• 可充电能源储存将取代一次性能源存储
• 微电网和其他机构如何参与超越电网 LDES 机遇
• 离网大趋势
• 太阳能发电的大趋势
• 网格与超越网格 LDES
• LCOS（平准化电力成本）：概述、定义与用途
• 基本 RFB（氧化还原液流电池）
• 资讯图：从物理上讲，RFB 是一种燃料电池，已改造为可充电电池
• RFB 併网/离网竞争范例

第三章RFB设计原则、研究管线、有害物质替代、SWOT评估

• 概述、成本分析、减少占地面积、接下来的设计挑战
  • 摘要
  • 成本问题、成本明细、改进的可能性
  • 减少足迹
• RFB类型（依化学物质/反应）和参数评估
• 基本 RFB 硬体和系统设计
• 钒RFB的设计
• 全钢RFB的设计
• 铁铬金属配体的设计
• 其他金属配体RFB的设计
• 溴氢RFB的设计
• 有机RFB的设计
• RFB薄膜设计
  • 问题
  • 膜难度和使用/建议的材料
  • RFB膜的最新研究
• RFB 研究管道
  • 摘要
  • 极端的承诺
  • 研究通路分析：108 篇论文（2022 年至 2023 年底）
  • 铁基电解质RFB研究
  • 钒电解质RFB的研究
  • 有机电解质RFB研究
  • 锌电解液RFB的研究
  • 一般金属及其他金属的RFB研究
  • 锰基RFB的研究
• 需要解决的有害物质和各公司当前绩效的问题
• 通用型RFB的SWOT评估
• 固定储存 RFB 的 SWOT 评估
• LDES RFB 的 SWOT 评估
• 混合 RFB 的 SWOT 评估
• 钒 RFB 相对于替代品的 SWOT 评估

第 4 章 RFB 公司（58 家公司：製造商/材料提供者）：比较与概述

• RFB公司比较（58家公司）：8项（公司名称、品牌、技术、技术、准备状态、追踪Beyond Grid、追踪LDES、评论）
• RFB 公司简介（58 家公司）（48 家製造商，10 家主要材料/服务公司）- 评估 Beyond Grid LDES 的潜力

第 5 章 LDES/一级 RFB 市场：原则、指标、技术、新需求（2024-2044 年）

• 概述：定义、网格/超越网格的各种需求
• 12 个 LDES 技术选项：使用 7 个指标进行比较
• 9 个主要 LDES 技术系列（包括 RFB）和 17 个其他标准
• RFB LDES
  • RFB 如何对延长 LDES 期限提出异议？
  • Beyond Grid/LDES RFB 趋势的领导者
• RFB 和其他选项：相当的效率和储存时间
• LDES 技术的可用场地与空间效率之间的关係
• LCOS 趋势（美元/kWh）与能量储存/放电时间之间的关係
• LDES 功率趋势 (GW) 与储存/放电时间之间的关係
• LDES技术储存天数和额定功率（MW）恢復
• 可以在各种延迟后使用 LDES 技术以峰值功率提供 LDES

第 6 章 Beyond Grid LDES 的氧化还原液流电池

• 摘要
• 超越电网：建筑、工业流程、迷你电网、微电网、其他
• 超越电网电力生产与管理
• 趋势是需要更长期的能源储存
• 透过减少 LDES 需求的策略来降级 LDES
• 适用于网格及超越网格的 LDES 工具包
• 超越电网发电的市场驱动因素－尤其是 LDES 产品
• 超越电网储能的多功能性
• LDES 成本问题
• LDES 技术在网格和超越网格中的潜力概述
• 为什么 Beyond Grid LDES 将在 RFB 中拥有最大的市场规模和价值（2024-2044 年）
• LDES 技术：销量最大（2024-2044 年）

Report Summary:

Here Comes a $5 billion Redox Flow Battery Company

The market for redox flow batteries RFB will rise to over $22 billion as they are radically improved and repositioned. You can create the market leader at $5 billion if you lead the pivoting to new technology and market priorities. So says the unique 284-page Zhar Research report, "Redox Flow Batteries: 28 Market Forecasts, Roadmaps, Technologies, 48 Manufacturers, Research Pipeline 2024-2044" has the detail. Many market reports look at a few players and mainly the obvious grid opportunity, but this report takes a much closer look. Hundreds of latest research papers to the end of 2023 have been examined and interviews carried out. The activities of 58 companies dominating the value chain are assessed, including 48 companies making, or about to make RFB. The basics of the physics and chemistry are considered including hybrid RFB taking market share. Trends are carefully established.

Drivers of change

The vital importance to RFB of three emerging trends are established and detailed in specific chapters. They are radically different designs and how the largest emerging opportunities will now involve long duration energy storage and beyond-grid, which embraces far more than microgrids. The major opportunity in grids is also closely appraised.

Dr. Peter Harrop, CEO of Zhar Research, advises, "RFB costs will tumble with new technologies and volume sales. Specifications will radically improve, such as halving size, cost down 60%, wider temperature range, removing toxigens and expensive metals. However, there are reasons why RFB retaining some of this will still sell. A $1 billion vanadium RFB company will appear."

Many technologies will succeed as the market fragments. Emerging competition, best partners and acquisitions? Detailed roadmaps of technology and market milestones, forecasts, technology issues, gaps in the market? They are here based on latest inputs. Older reports are useless for this fast-moving subject. See data to the end of 2023 that is continuously updated.

28 forecast lines

The Executive Summary and Conclusions at 41 pages gives the whole picture in 1-2 hours of reading. Bullet conclusions, new infograms, SWOT appraisals, 28 forecast lines and graphs 2024-2044, two roadmaps 2024-2044 showing milestones ahead. 48 manufacturers and putative manufacturers are tabulated and prioritised with their essential features. Learn how to make a billion-dollar company in vanadium RFB and named alternatives and hybrids can get you to $5 billion. Who to buy or partner? Understand why you should participate in the extremes of the house and the grid market but your leadership opportunity lies primarily in-between.

The Introduction at 24 pages explains why the world is electrifying and off-grid is trending. See how it is possible that the stationary storage market may overtake the mobile storage market including electric vehicles. Understand intermittency issues with solar and wind power, creating Long Duration Energy Storage LDES needs, many of which can be addressed by RFB. This is a balanced assessment so it reveals options for reducing the need for storage and their potential. Many new graphics make the megatrends of electrification, solar, LDES and beyond-grid easy to grasp. The chapter closes with RFB design basics and latest examples of RFB competing both on- and off-grid.

Chapter 3 (58 pages) covers RFB design principles and research pipeline with new graphics, pictures, and SWOT appraisals. Absorb the detailed look at cost issues that move markets - how liquids and membranes mostly dominate cost but evaluating the rest as well. Learn how footprint matters in most of the major RFB markets emerging and that is as much a matter of making them safely stackable as just increasing energy density. Some RFB can work without aircon, space between units or major firefighting infrastructure. Enjoy the deluge of materials opportunities and how they are changing. Here are the vanadium and alternative designs, iron-based options, metal-chelates, hydrogen bromine and more. Cutting across all that is organic, aqueous and mixed liquids appraisal, detail on membrane improvement, including no membrane at all.

Elephant in the room

The elephant in the room with RFB is toxigens and this chapter addresses them. See highly corrosive acids, cyanide radicals, toxigen intermediates where the precursors and breakdown products are carcinogenic, including fluoropolymers the European Union may ban. Understand the 11 escape routes needed and the companies behind them, as uses proliferate. Controlled disposal of materials and recycling of valuable metals become problematic. Here again are many research references to end 2023, constantly updated.

Chapter 4 (132 pages) examines 48 RFB manufacturers and putative manufacturers and ten support companies that may enter manufacture later. A table compares them in 8 columns: name, brand, technology, technology readiness, beyond grid focus, LDES focus and comment with the most promising companies highlighted. 130 pages then give profiles with indicators of future success - sales achievements, technology, progress to beyond-grid and long duration energy storage, size and cost reduction. This explains why vanadium RFB will grow sales for another 20 years but certain alternatives will grow faster.

Chapter 5 uses 24 pages, mostly infograms, to explain how LDES will soon be involved in most RFB sales. Here are the principles, parameters, technologies, new needs 2024-2044. Here are different needs for grid vs beyond-grid is followed by the 12 LDES technology choices compared in 7 columns, nine primary LDES technology families, including RFB, vs 17 other criteria then the place of RFB in this. See how RFB is competing for increasing LDES duration, leaders in the trends to beyond-grid and LDES RFB. Then comes equivalent efficiency vs storage hours for RFB and other options, available sites vs space efficiency for LDES technologies, LCOS $/kWh trend vs storage and discharge time, LDES power GW trend vs storage and discharge time, days storage vs rated power return MW for LDES technologies, potential by technology to supply LDES at peak power after various delays. All this compares RFB with many alternatives including how they will evolve 2024-2044.

Chapter 6 takes that forward to "Redox flow batteries for LDES beyond grids" with overview of how this is much more than microgrids. Then it fully addresses beyond-grid: buildings, industrial processes, microgrids, other. Next is beyond-grid electricity production and management and the trend to needing longer duration storage for these. That is balanced by how strategies for reducing LDES need can limit escalation of LDES but not stop it. The LDES toolkit for grid and beyond-grid, including RFB, is presented and market drivers of beyond-grid electricity generation notably providing LDES. Here is the multifunctional nature of beyond-grid storage and the LDES cost challenge. For example, long delay of electricity means greater amount stored not just minimising self-leakage. It gives the big picture of LDES technology potential for grid and beyond-grid, all of this being mostly new infograms. They continue with why beyond-grid LDES will become the largest number and value market for RFB 2024-2044 and technologies for largest number of LDES sold 2024-2044. After all, some will seek to sell millions and others will prioritise larger versions. Successful RFB from 1kWh to 1GWh is coming. Only this Zhar Research report, "Redox Flow Batteries: 28 Market Forecasts, Roadmaps, Technologies, 48 Manufacturers, Research Pipeline 2024-2044" . has the latest information and thorough analysis, lucidly presented, for you to find your place in all that.

REPORT STATISTICS
Chapters:	6
SWOT appraisals:	5
Forecast lines 2024-2044:	28
Infograms, tables, graphs:	113
Companies:	82+

Table of Contents

1. Executive summary and conclusions

• 1.1. Purpose of this report
• 1.2. The different characteristics of grid utility and beyond-grid LDES 2024-2044
• 1.3. Eight primary conclusions: RFB markets and industry with five infograms
• 1.4. 16 primary conclusions concerning RFB technologies
  • 1.4.1. The conclusions
  • 1.4.2. Seven RFB parameters reaching volume sale, vanadium vs other 2024-2044
• 1.5. 48 RFB manufacturers compared in 8 columns: name, brand, technology, tech. readiness, beyond grid focus, LDES focus, comment
• 1.6. Pie charts of active material and country of 43 RFB manufacturers
• 1.7. SWOT appraisal of regular RFB
• 1.8. SWOT appraisal of hybrid RFB
• 1.9. SWOT appraisal of vanadium RFB against alternatives
• 1.10. RFB roadmap by market and by technology 2024-2044
• 1.11. Long Duration Energy Storage LDES roadmap 2023-2044
• 1.12. Market forecasts in 28 lines
  • 1.12.1. RFB global value market grid vs beyond-grid 2023-2044 table, graph, explanation
  • 1.12.2. RFB global value market short term and LDES 2023-2044 table, graph, explanation
  • 1.12.3. Vanadium vs non-vanadium RFB beyond-grid LDES market % 2024-2044 table, graph, explanation
  • 1.12.4. Regular vs hybrid RFB value sales 2024-2044 table, graph, explanation
  • 1.12.5. Regional share of RFB value market in four regions 2024-2044
  • 1.12.6. LDES total energy storage value market showing beyond-grid gaining share 2023-2044
  • 1.12.7. Beyond-grid LDES market for microgrids, minigrids and other sites in 8 categories $ billion 2023-2044: table, graphs, explanation
  • 1.12.8. Total LDES market in 11 technology categories $ billion 2023-2044 table and graphs

2. Introduction

• 2.1. Overview: going electric and stationary overtaking mobile storage
• 2.2. Growth of wind and solar energy sources across the world
• 2.3. Rechargeable energy storage replaces single use and proliferates
• 2.4. How the beyond-grid LDES opportunity involves microgrids and much more
• 2.5. The off-grid megatrend
• 2.6. The solar megatrend
• 2.7. Grid vs beyond-grid LDES
• 2.8. Overview, definition and usefulness of Levelised Cost of Storage LCOS
• 2.9. Basic Redox Flow Battery RFB
• 2.10. Infogram: Physically, RFB are fuel cells reinvented as rechargeable batteries
• 2.11. Examples of RFB competing on-grid and off-grid

3. RFB design principles, research pipeline, toxigen alternatives and SWOT appraisals

• 3.1. Overview, cost analysis, footprint reduction and next design challenges
  • 3.1.1. General
  • 3.1.2. Cost issues, cost breakdown and potential improvement
  • 3.1.3. Footprint reduction
• 3.2. Types of RFB by chemistry and reaction with parameter appraisal
• 3.3. Basic RFB hardware and system design
• 3.4. Vanadium RFB design
• 3.5. All-iron RFB design
• 3.6. Iron Chromium metal ligand design
• 3.7. Other metal ligand RFB design
• 3.8. Hydrogen-bromine RFB design
• 3.9. Organic RFB design
• 3.10. RFB membrane design
  • 3.10.1. Issues
  • 3.10.2. Membrane difficulty levels and materials used and proposed
  • 3.10.3. Recent RFB membrane research
• 3.11. RFB research pipeline
  • 3.11.1. Overview
  • 3.11.2. Extreme promises
  • 3.11.3. Research pipeline analysis: 108 papers from 2022 to end of 2023
  • 3.11.4. Iron-based electrolyte RFB research
  • 3.11.5. Vanadium electrolyte RFB research
  • 3.11.6. Organic electrolyte RFB research
  • 3.11.7. Zinc electrolyte RFB research
  • 3.11.8. General and other metals RFB research
  • 3.11.9. Manganese-based RFB research
• 3.12. Toxigen issues to tackle and current achievements by company
• 3.13. SWOT appraisal of regular RFB
• 3.14. SWOT appraisal of RFB for stationary storage
• 3.15. SWOT appraisal of RFB for LDES
• 3.16. SWOT appraisal of hybrid RFB
• 3.17. SWOT appraisal of vanadium RFB against alternatives

4. 58 RFB companies manufacturers, key materials providers compared and profiled in 132 pages

• 4.1. 58 RFB companies compared in 8 columns: name, brand, technology, tech. readiness, beyond grid focus, LDES focus, comment
• 4.2. Profiles of 58 RFB companies (48 manufacturers, 10 in key materials/ services) in 130 pages with appraisal for beyond-grid LDES potential

5. LDES, the primary RFB market: principles, parameters, technologies, new needs 2024-2044

• 5.1. Overview: definition, different needs for grid vs beyond-grid
• 5.2. The 12 LDES technology choices compared in 7 columns
• 5.3. Nine primary LDES technology families, including RFB, vs 17 other criteria
• 5.4. RFB LDES
  • 5.4.1. How RFB is competing for increasing LDES duration
  • 5.4.2. Leaders in the trends to beyond-grid and LDES RFB
• 5.5. Equivalent efficiency vs storage hours for RFB and other options
• 5.6. Available sites vs space efficiency for LDES technologies
• 5.7. LCOS $/kWh trend vs storage and discharge time
• 5.8. LDES power GW trend vs storage and discharge time
• 5.9. Days storage vs rated power return MW for LDES technologies
• 5.10. Potential by technology to supply LDES at peak power after various delays

6. Redox flow batteries for LDES beyond grids

• 6.1. Overview
• 6.2. Beyond-grid: buildings, industrial processes, minigrids, microgrids, other
• 6.3. Beyond-grid electricity production and management
• 6.4. The trend to needing longer duration storage
• 6.5. Strategies for reducing LDES need can limit escalation of LDES
• 6.6. LDES toolkit for grid and beyond-grid
• 6.7. Market drivers of beyond-grid electricity generation notably providing LDES
• 6.8. Multifunctional nature of beyond-grid storage
• 6.9. LDES cost challenge
• 6.10. Big picture of LDES technology potential for grid and beyond-grid
• 6.11. Why beyond-grid LDES will become the largest number and value market for RFB 2024-2044
• 6.12. Technologies for largest number of LDES sold 2024-2044