Functional role of ptfe proton exchange membrane
Fuel cells can be divided into proton exchange membrane fuel cells, solid oxide fuel cells, phosphoric acid fuel cells, and molten carbonate fuels according to the different electrolytes in the membrane electrodes. Types of batteries and alkaline fuel cells. Among them, proton exchange membrane fuel cells (PEMFC) have the advantages of high power density, energy conversion efficiency, low operating temperature, and cleanliness, and have become one of the mainstream fuel cell technologies in the world. Its emergence also made ptfe proton exchange membrane discovered and well-known.
PEMFC’s full name is proton exchange membrane fuel cell, in which the proton exchange membrane is the electrolyte of PEMFC , which plays the role of conducting hydrogen ions, isolating fuel and oxidant, and blocking electrons. It is the core component of PEMFC. Compared with other fuel cells, PEMFC has a higher power density due to the excellent performance of the proton membrane.
Fuel cell is the main application field of proton exchange membrane. As the core component of PEMFC, the performance of proton exchange membrane is decisive for the performance, life, cost, etc. of PEMFC. Impact. The fuel cell proton exchange membrane market is determined by the fuel cell market. At present, proton exchange membrane fuel cells are in the commercial demonstration application stage abroad, and have been involved in a wide range of fields such as vehicles, mobile power supplies, submarines, laptop power supplies, etc. The large-scale demand market is gradually taking shape, so fuel cell proton exchange membranes contain huge growth potential. .
The independently developed ptfe proton exchange membrane is the core material of the fuel cell. It has good chemical inertness and therefore does not interact with the fuel. A chemical reaction occurs in the electrolyte in the battery. The Warrior film is very thin and has good mechanical strength, which means it only needs to occupy a small space and has good mechanical properties. , so that the battery has higher yield and power performance.
In the field of fuel cells, ptfe proton exchange membrane can be used as the supporting base membrane of mea proton exchange membrane, and its good mechanical strength Good performance of fuel cells with uniform pore size. Interested parties are welcome to visit the store for consultation.
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