new material
Flow battery electrode felt is a high-performance carbon-based material designed for efficient electrochemical energy storage and transfer. Manufactured using advanced carbon fiber processing techniques, this electrode felt offers superior electrical conductivity, optimized porosity, and excellent durability. It is widely used in redox flow battery systems, energy storage applications, fuel cells, and industrial electrochemical processes, ensuring reliable performance in high-efficiency energy conversion environments.
Product Overview
Flow battery electrode felt is a specially designed electrode material for flow batteries, made from high-quality PAN fibers through a series of processes, including nonwoven fabrication, pre-oxidation, carbonization, graphitization, and activation. This material offers an optimal porosity and excellent acid-base resistance, which significantly enhances the electrochemical activity and stability of the battery. With a relatively low cost and uniform thickness, this electrode material is suitable for a variety of flow battery systems, providing stable and reliable electrode performance.
Key Features
- Optimal Porosity: The material has an ideal porous structure that optimizes the flow of electrolytes, improving battery performance.
- Acid-Base Resistance: Excellent resistance to acids and bases, ensuring high stability and durability in the complex chemical environment of flow batteries.
- High Electrochemical Activity: Activated electrode felt exhibits outstanding electrochemical activity, improving the energy conversion efficiency of flow batteries.
- Uniform Thickness: Ensures consistent thickness, enhancing the overall performance and stability of the battery.
- Low Cost: Compared to other electrode materials, it has a lower production cost, making it ideal for large-scale applications.
Applications
- Flow Batteries: Widely used in various flow battery systems as an electrode material, improving charge/discharge efficiency and stability.
- Renewable Energy Storage: Suitable for energy storage systems, especially in solar, wind, and other renewable energy storage applications.
- Power Storage: Used in large-scale power storage devices to enhance energy conversion efficiency and ensure stable power supply.
- Electrochemical Reactors: Can also be used as an electrode material in other types of electrochemical reactors to improve reaction efficiency.
- Energy Storage Research: Plays a key role in the development of flow battery technologies, advancing energy storage research.
| Item | Technical Index |
| Density (g/cm³) | 0.08-0.11 |
| Width (mm) | ≤1600 (customizable) |
| Thickness (mm) | ≤8 (customizable) |
| Specific Area (m²/g) | 2.2-4 |
| Electrochemical Activity Test (/) | Uniformity |
