Nickel Sludge..
Nickel .
Nickel(ni) sludge.
Ferro nickel.
Nickel.
Nickel.
Nickel.Export
Nickel.
Nickel.Mining services
Nickel.
chemicals like chromium nickel.
Old Cupro Nickle..
Nickel wire 25 micron.
Metals & non ferrous: copper cathodes, copper powder, thermal coal, nickel, iron pipes, cobalt oil & gas : crude oil, diesel, jet fuel agricultural: cocoa, coffee, Arabic gum, black pepper other : cement.
Metals ferrous and non ferrous, such as : aluminium ingots a7, copper cathodes 99.9% , copper milberry scrap 99.7%, hms 1&2, iron ore 62 64%, nickel wire etc., rapeseed oil, sunflower oil, corn oil, peanut oil, coal.
Nickel sludge, zinc ash, copper ore, lead ore, chrome ore, manganese ore, bauxite ore, iron ore, iron ore pellets, tin ore, ir64 rice, ir 64 5% broken rice, zinc ash, raw red chilli, chrome ore, iron skull, 1121 sella white basmati rice, 3 ply surgical masks.
Ultrafine copper powder isotope, ultrafine nickel wire.
Petrochemical products, oil, gas, coffee, shoe polish, rare earth materials including lithium ore, iron ore, nickel ore, copper cathodes, copper concentrate, copper ore, galena lead ore, tin ore, gypsum ore, limestone ore, coal ore, urea, and etc..
Product Introduction a promising alternative to traditional proton exchange membrane fuel cells due to their lower cost and ability to use non-noble metal catalysts. A key component in 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 due to its high conductivity and durability. Alkaline Electrolyte Membrane Fuel Cells have been gaining increasing attention due to their superior performance compared to Proton Exchange Membrane Fuel Cells . have faster electrochemical kinetics, lower catalyst costs, and weaker corrosion, making them an attractive alternative to . One of the main advantages of is the use of an alkaline electrolyte, which allows for the benefit of non-precious-metal catalysts, making commercialization more feasible. While are technically similar, the key difference is the use of a solid instead of an acidic in . Overall, offer significant advantages over 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 200C Operating pH: 1-14 Compatibility: Compatible with various AEMFC systems Features: Non-noble metal catalysts High conductivity Durability Compatibility Lightweight