Review of Mathematical Modeling Method for Proton Exchange Membrane Fuel Cell
In order to achieve carbon neutrality goals,the hydrogen has become an important direction for the current transformation of clean energy.Among them,proton exchange membrane fuel cells(PEMFC)have attracted attention from the automotive industry and special equipment energy direction due to their high efficiency,low noise,low infrared signal and other characteristics.The working principle of proton exchange membrane fuel cell involved a large of contents and had wide range,therefor the PEMFC was a nonlinear and complex system with multi parameters tight coupling.At present,re-searchers have carried out research on PEMFC modeling.A variety of PEMFC models were proposed for the further study the working principle and control state,thus provided reference for improving the operating performance and extending the service life.We established a proton exchange membrane fuel cell model,and based on the model calculation,improved the structure and control strategy of the fuel cell,which could effectively reduce research and development costs and promote its commercialization process.The modeling methods of PEMFC were classified and analyzed,we analyzed corresponding appli-cation scenarios based on basic characters and the advantages and disadvantages of each methods,which provided reference for relevant studies.
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