Renewable Intermittency Concerns Supplementing the Demand
Despite significant growth witnessed over the past few years as compared to other forms of energy, there is always a concern pertaining to the variability of renewable energy sources. The electricity generated from the solar energy is generally entering the grid when there is a trough in power demand. Similarly, there’s always a concern on the reliability of wind power facing similar intermittency problems. As a result, the usage of lithium-ion-based energy storage systems has spurred across the globe to solve the issue of stability of renewable-based energy generation. However, lithium-ion batteries only last for 300 or 400 charge/discharge cycles and need to be replaced in every 3-4 years, adding to the overall cost-efficiency. On the flip side, flow batteries have technologically advanced to offer cycle lifetimes in excess of 10,000 full cycles, which could even range to 30-years. Furthermore, the liquid electrolyte used in flow batteries are also considered recyclable, and has low replacement cost, high storage capacity, and no waste disposal problems, which has further supplemented the demand for flow batteries across the globe. As the share of renewables is expected to increase in the coming years in the overall primary energy mix, the use of flow batteries is expected to witness a similar increase during the forecast period.
Europe to Witness High Growth Rate
As most of the countries in the European region are moving beyond short-term energy storage applications and looks for assets that can work over longer time frames, the demand for flow batteries is expected to increase at a considerable level in the region. Germany, for instance, is exploring the possibilities of deploying long-duration bulk storage technologies including flow batteries. In June 2017, Ewe Gasspeicher GmbH, a wholly owned subsidiary of the utility company EWE, had announced its plans to build the world’s largest battery by employing the well-known redox flow battery principle, with the capability of powering entire Berlin. Similar interests are growing across other countries as well, to ensure grid-stability from renewables, which, in turn, is expected to offer huge business growth potential for flow battery players, to strengthen their business in Europe, during the forecast period.
China Set to Maintain High Demand
As China's energy demand continued to increase in the recent years, the Chinese government have invested a large amount of money in renewable and sustainable energy technologies. In addition, the country is moving ahead in the use of vanadium for renewable energy storage. Furthermore, as China plans to move away from conventional fuel-based power generation such as coal and nuclear fuel, the demand for flow battery based storage applications are expected to witness a significant increase during the forecast period.
Key Developments in the Market
March 2018: ESS Inc, the US-based manufacturer of a novel iron flow battery, entered the German market via an agreement with the investor, chemical company BASF
November 2017: Pu Neng, one of the leading providers of vanadium flow battery technology in the world, signed the Hubei Zaoyang project contract with Hubei Pingfan Vanadium Energy Storage Technology Company for the largest vanadium flow battery in China
The major players include - ESS Inc, Redt Energy PLC, Sumitomo Electric Industries, Ltd., Redflow Limited, American Vanadium Corp., UniEnergy Technologies, LLC, NanoFlowcell, Lockheed Martin Corporation, H2 Inc., Pu Neng Energy, Vionx Energy Corporation, among others.
Reasons to Purchase This Report
- Current and future flow battery market outlook in the developed and emerging markets
- Analyze various perspectives of the market with the help of Porter’s five forces analysis
- The segment that is expected to dominate the market
- Regions that are expected to witness fastest growth during the forecast period
- Identify the latest developments, and strategies employed by the major market players.
- 3-months analyst support, along with the Market Estimate sheet (in excel)
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2. Research Methodology
2.1 Scope of the Report
2.2 Market Definition
2.3 Study Assumptions
2.4 Study Deliverables
2.5 Research Phases
3. Market Overview
3.2 Market Size and Demand Forecast until 2023
3.3 Recent Trends and Developments
3.4 Government Policies & Regulations
3.5 Investment Opportunities
4. Market Dynamics
5. Value Chain Analysis
6. Industry Attractiveness – Porter’s Five Forces Analysis
6.1 Bargaining Power of Suppliers
6.2 Bargaining Power of Consumers
6.3 Threat of New Entrants
6.4 Threat of Substitute Products and Services
6.5 Intensity of Competitive Rivalry
7. Market Segmentation and Analysis (Overview, Market Size and Demand Forecast until 2023)
7.1 By Type
7.1.1 Redox Flow Battery
7.1.2 Hybrid Flow Battery
7.2 By Material
7.3 By Application
7.3.2 Electric Vehicle (EV) Charging Station
7.3.3 Commercial & Industrial (C&I)
8. Regional Market Analysis (Overview, Market Size and Demand Forecast until 2023)
8.1 North America
8.1.1 United States
8.1.3 Rest of North America
8.2.4 South Korea
8.2.6 Rest of Asia-Pacific
8.3.1 United Kingdom
8.3.5 Rest of Europe
8.4 Rest of the World
8.4.1 Middle East & Africa
8.4.2 South America
9. Key Company Analysis* (Overview, Products & Services, Financials**, Recent Developments, and Analyst View)
9.1 ESS Inc
9.2 Redt Energy PLC
9.3 Sumitomo Electric Industries, Ltd.
9.4 Redflow Limited
9.5 American Vanadium Corp.
9.6 UniEnergy Technologies, LLC
9.8 Lockheed Martin Corporation
9.9 H2 Inc.
9.10 Pu Neng Energy
9.11 Vionx Energy Corporation
10. Competitive Landscape
10.1 Mergers and Acquisitions
10.2 Joint Ventures, Collaborations, and Agreements
10.3 Strategies Adopted by Leading Players
11. Future of the Market
12.1 Contact Us
*List not exhaustive
**Subject to availability on public domain
- ESS Inc
- Redt Energy PLC
- Sumitomo Electric Industries Ltd.
- Redflow Limited
- American Vanadium Corp.
- UniEnergy Technologies LLC
- Lockheed Martin Corporation
- H2 Inc.
- Pu Neng Energy
- Vionx Energy Corporation