dublin, January 30, 2023 /PRNewswire/ — Research and Markets
“Technological advances enable hydrogen production from brine electrolysis” report added to ResearchAndMarkets.com’s supply.
Water electrolysis using electrolyzers powered by renewable energy produces green hydrogen, considered the most sustainable type of hydrogen. Conventional electrolyzers require high-purity water to produce hydrogen because impurities and salts can damage the electrodes and other components of the cell. However, more than 96.5% of naturally available water exists in the form of brackish or salt water. Therefore, as the degree of global water scarcity intensifies, the need for pure water may become a major obstacle to the production of green hydrogen using conventional electrolyzers. Direct brine electrolysis could play an important role in the future of green hydrogen because it can produce hydrogen using brine as an electrolyte for a long period of time.
In this study, the publisher analyzed:
- Promising technological approach to brine electrolysis
- Growth Drivers and Constraints to Technology Adoption
- Stakeholders develop innovative solutions
- Global patent landscape, major patent owners/applicants and research fields
- commercialization opportunity
Key topics covered:
1. Strategic imperatives
- Why is it getting harder and harder to grow?The 8Ts of strategic imperatives: Factors weighing on growth
- Strategic imperative 8T
- Impact of the top 3 strategic imperatives on the direct brine electrolysis industry
- Growth Opportunities Drive Growth Pipeline Engines
- research methodology
2. Growth opportunity analysis
- Analysis range
- segmentation
- growth drivers
- growth limit
3. Technical Analysis
- Advantages and challenges of direct brine electrolysis
- Technology Introduction
- An electrochemical cell with forward osmosis for efficient and stable direct brine electrolysis
- Hydrazine-containing hybrid electrolyzer enables energy-efficient direct brine electrolysis
- How the hybrid electrolyzer works
- Built-in corrosion resistance enables the anode to withstand brine electrolysis
- Membraneless design for cost-competitive direct seawater electrolysis
4. Companies to watch
- Batch electrolysis for cost-effective hydrogen production
- Membrane-free design can directly electrolyze seawater
- Technology integration makes hydrogen production from brine possible
- PEM electrolytic desalination enables offshore hydrogen production
5. Intellectual property analysis
- Patent overview of direct brine electrolysis
6. A Universe of Growth Opportunities
- Growth Opportunity 1: Development of modular and energy-efficient direct seawater electrolysis technology to power the maritime industry
- Growth opportunity 2: Combining direct brine electrolysis with offshore wind
- Growth Opportunity 3: Technology Convergence to Address the Numerous Challenges in Direct Brine Electrolysis
7. Appendix
- Technology Readiness Level (TRL): Description
8. Next steps
- your next step
- Why Frost, and why now?
- Legal Disclaimer
For more information on this report, please visit https://www.researchandmarkets.com/r/ue0x3b
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