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dc.contributor.authorSwain, P.
dc.contributor.authorJena, D.
dc.date.accessioned2020-03-30T10:22:46Z-
dc.date.available2020-03-30T10:22:46Z-
dc.date.issued2015
dc.identifier.citation2015 International Conference on Recent Developments in Control, Automation and Power Engineering, RDCAPE 2015, 2015, Vol., , pp.286-291en_US
dc.identifier.urihttp://idr.nitk.ac.in/jspui/handle/123456789/8800-
dc.description.abstractThe well-known nonlinear fifth-order model of a proton exchange membrane (PEM, also known as polymer electrolyte membrane) fuel cell (PEMFC) seems to be quite complex. In this paper, we derived the linearized model of the original nonlinear system in non-coordinate standard form considering proper initial conditions and equilibrium point. Large deviations in pressure can cause severe membrane damage in the fuel cell. Conventional Proportional-Integralderivative (PID) controllers are used to regulate the pressure change of hydrogen and oxygen at the desired value despite of changes in the fuel cell current. As the equilibrium point at steady state becomes unique, Jacobian linearization of the original system has been done and the state space matrices of the linearized system were found using MATLAB Symbolic ToolBox. The linearized system is asymptotically stable as well as controllable and observable. During the control design, hydrogen and oxygen partial flow rates are defined as the control variables and the hydrogen and oxygen pressure difference are taken as the control objectives. The simulation result shows that the linearized PEMFC model with conventional PID controller where the controller parameters are tuned using Zeigler-Nichols (Z-N) having acceptable control performance. � 2015 IEEE.en_US
dc.titlePID control design for the pressure regulation of PEM fuel cellen_US
dc.typeBook chapteren_US
Appears in Collections:2. Conference Papers

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