20 Microns Nickel Fiber Felt For AEMFC GDL

Product Details

Product Introduction

Alkaline Electrolyte Membrane Fuel Cells (AEMFCs) are a promising alternative to traditional proton exchange membrane fuel cells (PEMFCs) due to their lower cost and ability to use non-noble metal catalysts. A key component in AEMFCs is the anode electrode, which requires a conductive and durable material that can withstand the harsh alkaline conditions present in the fuel cell. Nickel felt is a material that has shown promise as an anode substrate for AEMFCs due to its high conductivity and durability.

Alkaline Electrolyte Membrane Fuel Cells (AEMFCs) have been gaining increasing attention due to their superior performance compared to Proton Exchange Membrane Fuel Cells (PEMFCs). AEMFCs have faster electrochemical kinetics, lower catalyst costs, and weaker corrosion, making them an attractive alternative to PEMFCs. One of the main advantages of AEMFCs is the use of an alkaline electrolyte, which allows for the benefit of non-precious-metal catalysts, making commercialization more feasible. While AEMFCs and PEMFCs are technically similar, the key difference is the use of a solid AEM instead of an acidic PEM in PEMFCs. Overall, AEMFCs offer significant advantages over PEMFCs and are a promising technology for fuel cells.

Detailed Specifications

Material: N4 N6 N8 Ni200 Ni201

Thickness: 0.25 mm - 5 mm

Pore size: 20 microns

Length x Width: Customizable

Operating Temperature: Up to 200°C

Operating pH: 1-14

Compatibility: Compatible with various AEMFC systems

Features:

Non-noble metal catalysts: One of the key advantages of AEMFCs is the ability to use non-noble metal catalysts, which are more cost effective than traditional platinum-based catalysts used in proton exchange membrane fuel cells. Nickel felt as an anode substrate is compatible with non-noble metal catalysts, making it an ideal choice for AEMFCs.

High conductivity: Nickel is a highly conductive material, making it an efficient material for use as an anode in a fuel cell. This high conductivity allows for efficient electrochemical reactions, leading to higher overall efficiency of the fuel cell.

Durability: Nickel is a strong and durable material that can withstand the harsh alkaline conditions present in the fuel cell. This durability ensures that the anode substrate will not degrade or corrode over time, leading to improved overall performance and a longer lifespan of the fuel cell.

Compatibility: Nickel felt is compatible with many other materials used in AEMFCs, such as alkaline electrolyte membranes and non-noble metal catalysts. This makes it easy to integrate into existing AEMFC designs and ensures that the fuel cell will operate reliably over the long term.

Pore size: The nickel felt used in AEMFCs typically has a pore size of 20 microns, which allows for efficient distribution of the reactants and products throughout the electrode. This efficient distribution helps to improve the overall performance of the fuel cell.

Lightweight: Nickel felt is a lightweight material, which makes it an ideal choice for use in AEMFCs where weight is an important consideration. The use of lightweight materials helps to reduce the overall weight of the fuel cell, making it more portable and easier to transport.

Application field

Anode substrate in AEMFCs: Nickel felt is commonly used as an anode substrate in Alkaline Electrolyte Membrane Fuel Cells (AEMFCs) due to its high conductivity and durability. It improves the performance and lifespan of the fuel cell, making it a popular choice for researchers and manufacturers.

Electroplating industry: Nickel felt is used in the electroplating industry as a substrate for the deposition of various metals. Its high conductivity and durability make it an ideal choice for electroplating tanks and cells.

Water treatment systems: Nickel felt is used in water treatment systems as an electrode for the electrochemical treatment of water. Its high conductivity and ability to withstand harsh conditions make it an ideal choice for this application.

Energy storage: Nickel felt is used in energy storage applications as an electrode for batteries and capacitors. Its high conductivity and durability make it an efficient and long-lasting choice for energy storage.

Electrochemical sensors: Nickel felt is used in electrochemical sensors for the detection of various compounds and substances. Its high conductivity and ability to withstand harsh conditions make it an ideal choice for use in sensors.

Catalysis: Nickel felt is used in catalysis for various chemical reactions due to its high surface area and conductivity. Its ability to withstand harsh conditions makes it an ideal choice for use in catalysis.

Package and Shipment

1. Sintered Filters are usually packed in cartons, wrapped in soft film, and fixed in a box filled with industrial foam cotton, and the outer baler is packed with plastic bags with no damage during transportation.

2. Wooden box export packaging can also be customized. The foam cotton can be filled and fixed, the external box is sealed, the bottom is specified, the whole packaging is processed, and the goods can be delivered to the designated place of the customer without damage.