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Seven-parameter PEMFC model optimization using an battlefield optimization algorithm

Manish Kumar Singla, Muhammed Ali, Jyoti Gupta, Pradeep Jangir, Arpita Arpita, Ramesh Kumar, R. S. Jangid, Mohammad Khishe

2025Electrochemistry Communications7 citationsDOIOpen Access PDF

Abstract

Precise modeling of Proton Exchange Membrane Fuel Cells (PEMFCs) requires accurate identification of key parameters, which are often unavailable from manufacturers but crucial for predicting fuel cell performance. The system relies on seven key parameters to determine activation and ohmic and concentration overpotential values through ξ1, ξ2, ξ3, ξ4, λ, Rc, and β. The Battlefield Optimization Algorithm (BfOA) represents a new optimization method that finds these seven essential PEMFC parameters effectively. Using Sum Squared Error (SSE) to minimize the difference between estimated and actual cell voltages, BfOA outperformed other optimization algorithms in determining parameters for six PEMFC models under varying operating conditions. The optimized parameters enabled accurate prediction of I-V and P V curves, closely matching experimental data. BfOA's efficiency and robustness make it well-. suited for real-time fuel cell modeling. Its effectiveness as a method for precise PEMFC device analysis within electronic component simulators is demonstrated. Future development will explore BfOA's compatibility with other fuel cell technologies, incorporate real-time data capabilities, and implement the algorithm in embedded systems for real-time PEMFC monitoring and control.

Topics & Concepts

Optimization algorithmProton exchange membrane fuel cellAlgorithmBattlefieldComputer scienceMaterials scienceMathematical optimizationEngineeringFuel cellsMathematicsChemical engineeringAncient historyHistoryFuel Cells and Related MaterialsElectrocatalysts for Energy ConversionMXene and MAX Phase Materials
Seven-parameter PEMFC model optimization using an battlefield optimization algorithm | Litcius