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Pinagapani, Arun, Iniya, S. (1400). Fractional order PID control of air feed system in a proton exchange membrane fuel cell. نشریه هنرهای کاربردی, 12(Special Issue), 1553-1560. doi: 10.22075/ijnaa.2021.5811
Arun Kumar Pinagapani; S Iniya. "Fractional order PID control of air feed system in a proton exchange membrane fuel cell". نشریه هنرهای کاربردی, 12, Special Issue, 1400, 1553-1560. doi: 10.22075/ijnaa.2021.5811
Pinagapani, Arun, Iniya, S. (1400). 'Fractional order PID control of air feed system in a proton exchange membrane fuel cell', نشریه هنرهای کاربردی, 12(Special Issue), pp. 1553-1560. doi: 10.22075/ijnaa.2021.5811
Pinagapani, Arun, Iniya, S. Fractional order PID control of air feed system in a proton exchange membrane fuel cell. نشریه هنرهای کاربردی, 1400; 12(Special Issue): 1553-1560. doi: 10.22075/ijnaa.2021.5811

Fractional order PID control of air feed system in a proton exchange membrane fuel cell

International Journal of Nonlinear Analysis and Applications
دوره 12، Special Issue، اسفند 2021، صفحه 1553-1560    اصل مقاله (697.46 K)
نوع مقاله: Research Paper
شناسه دیجیتال (DOI): 10.22075/ijnaa.2021.5811
نویسندگان
Arun Kumar Pinagapani* 1؛ S Iniya2
1I & CE Department, PSG College of Technology, Coimbatore, Tamil Nadu, Inida.
2Validation Team, Caterpillar India Engineering Solutions Private Limited, Chennai, Tamil Nadu, India.
تاریخ دریافت: 19 مرداد 1400،  تاریخ بازنگری: 27 مهر 1400،  تاریخ پذیرش: 02 آذر 1400 
چکیده
Proton Exchange Membrane Fuel Cell (PEMFC) converts chemical energy liberated during the electrochemical reaction of hydrogen and oxygen to electrical energy and has huge potential in transport, stationary and portable applications. It is an open loop stable system but it does not settle in the given set point. Hence controllers are required to make the system to settle at the set point and also to prevent the PEMFC from oxygen starvation. A simulative approach of controlling PEMFC with Proportional Integral Derivative (PID) controller and Fractional order PID (FOPID) controller is investigated in this paper. FOPID controller is tuned using two approaches namely KC auto tuning and Oustaloup approximation. The performances of the two FOPID controllers are compared with PID controller. The use of FOPID controller results in better closed loop time domain characteristics than PID controller and is shown with simulations in MATLAB.
کلیدواژه‌ها
PEMFC؛ FOPID؛ PID؛ Controller؛ Fractional order
مراجع
[1] A.M. AbdelAty, A.S. Elwakil, A.G. Radwan, C. Psychalinos and B.J. Maundy, Approximation of the fractionalorder laplacian s
α as a weighted sum of first-order high-pass filters, IEEE Trans. Circuits and Systems II: Express
Briefs, 65(8) (2018) 1114–1118.
[2] M.S. AbouOmar, H.-J. Zhang and Y.-X. Su, Fractional order fuzzy PID control of automotive PEM fuel cell air
feed system using neural network optimization algorithm, Energies 12(8) (2019).
[3] Y.Q. Chen, I. Petras and D. Xue, Fractional order control-A tutorial, Amer. Control Conf. (2009) 1397–1411.
[4] W.R.W. Daud, R.E. Rosli, E.H. Hajlan, S.A.A. Hamid and R. Mohammed, PEMFC fuel cell control, IEEE Trans.
Renewable Energy 72(8) (2017) 960–1481.
[5] R. El-khazali and I.M. Batiha, Approximation of fractional order operators, Springer Proceedings in Mathematics
and Satistics, 303(8) (2018) 978–981.
[6] M.R. Faieghi and A. Nemati, On fractional-order PID design, In: T. Michalowski, Applications of MATLAB in
Science and Engineering, BoD–Books on Demand, 2011.
[7] D. Keyser, C.L. Muresan and C.M. Ionescu, A novel auto tuning method for fractional order PI/PD controllers,
IEEE Transactions, 62(8) (2020) 268–275.
[8] B.M. Kim and Y.H. Choi, Adaptive control of PEMFC air supply system with asymmetric oxygen excess ratio
constrains, IEEE Transactions on Control system technology, 32(9) (2019) 5537–5549.
[9] G. Mani and A.K. Pinagapani, Design and implementation of a preemptive disturbance rejection controller for
PEM Fuel cell air-feed system subject to load changes, J. Elect. Engin. Tech., 11(5) (2016) 1449–1456.
[10] C.A. Monje, Y.Q. Chen, B.M. Vinagre, D. Xue and V. Feliu-Batlle, Fractional-order Systems and Controls:
Fundamentals and Applications, Advances in Industrial Control, Springer Science & Business Media, 2010.
[11] A.M. Omer, H. Wang and Y. Tian, Robust model free adaptive type 2 fuzzy sliding mode control for PEMFC
system using disturbance observer, Int. J. Fuzzy Syst. 22(7) (2020) 2188–2203.
[12] A. Oustaloup, F. Levron, B. Mathieu and F.M. Nanot, Frequency-band complex noninteger differentiator: characterization and synthesis, IEEE Trans. Circuits and Systems I: Fund. Theory Appl. 47(1) (2000) 25–39.
[13] Y. Qi, M. Thern, M. Espinoza-Andaluz and M. Andersson, Modelling and control strategies of PEMFC, Energy
Procedia 159(8) (2019) 54–59.[14] D. Srinivasarao, D. Shanthanu and S.H. Sonawane, Fractional order PID controller design for supply manifold
pressure control of PEMFC, Int. J. Chem. Product Process Modell. 64(3) (2019).
[15] D. Xue and Y. Chen, A comparative introduction of four fractional order controllers, Proc. 4th World Cong.
Intell. Control Automat. (2002) 3228–3235.
[16] Z. Yan, K. Li, C. Song and J. He, Tuning and application of fractional order PID controllers, Proc. 2013 2nd Int.
Trans. Measur. Instrument. Control, 45(4) (2013) 955–958.

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