REFERENCES
1. Roy AK, Basak P, Biswal GR. Low voltage ride through capability enhancement in a grid-connected wind/fuel cell hybrid system via combined feed-forward and fuzzy logic control. IET Gener Transm Distrib 2019;13:2866-76.
2. Pukrushpan JT, Stefanopoulou AG, Peng H. Control of fuel cell power systems: principles, modeling. Berlin, Germany: Springer Science & Business Media; 2004.
3. Guzzella L. Control of fuel cell power systems: principles, modelling, analysis and feedback design, Jay T. Pukrushpan, Anna G. Stefanopoulou and Huei Peng, Springer, London, UK, xvii+ 161pp. Int J Robust Nonlinear Control 2005;15:553-4.
5. Das V, Padmanaban S, Venkitusamy K, Selvamuthukumaran R, Blaabjerg F, Siano P. Recent advances and challenges of fuel cell based power system architectures and control - a review. Renew Sustain Energy Rev 2017;73:10-8.
6. Grujicic M, Chittajallu K, Pukrushpan J. Control of the transient behaviour of polymer electrolyte membrane fuel cell systems. J Automob Eng 2004;218:1239-50.
7. Priya K, Sathishkumar K, Rajasekar N. A comprehensive review on parameter estimation techniques for Proton Exchange Membrane fuel cell modelling. Renew Sustain Energy Rev 2018;93:121-44.
8. Na WK, Gou B. Feedback-linearization-based nonlinear control for PEM fuel cells. IEEE Trans Energy Convers 2008;23:179-90.
9. Na WK, Gou B, Diong B. Nonlinear control of PEM fuel cells by exact linearization. IEEE Trans Industry Appl 2007;43:1426-33.
10. Matraji I, Laghrouche S, Jemei S, Wack M. Robust control of the PEM fuel cell air-feed system via sub-optimal second order sliding mode. Appl Energy 2013;104:945-57.
11. Chen J, Wu Z, Wu C, Yan C. Observer based fuel delivery control for PEM fuel cells with a segmented anode model. Asian J Control 2019;21:1781-95.
12. Park G, Gajic Z. Sliding mode control of a linearized polymer electrolyte membrane fuel cell model. J Power Sour 2012;212:226-32.
15. Utkin VI. Sliding mode control: mathematical tools, design and applications. Nonlinear and optimal control theory. Berlin, Heidelberg: Springer; 2008. p. 289-347.
16. Savrun MM, İnci M, Büyük M. Design and analysis of a high energy efficient multi-port dc-dc converter interface for fuel cell/battery electric vehicle-to-home (V2H) system. J Energy Storage 2022:45,103755.
17. İnci M. A flexible perturb & observe MPPT method to prevent surplus energy for grid-failure conditions of fuel cells. Int J Hydrogen Energy 2021;46:39483-98.
18. İnci M, Selim Aygen M. A modified energy management scheme to support phase balancing in grid interfaced photovoltaic/fuel cell system. A. in Shams Eng J 2021;12:2809-22.
19. Rakhtala SM. Self-tuning fuzzy logic PID controller with a practical view to PEM fuel cell air supply system. Int J Model, Identif Control 2021;37:187-98.
21. Rakhtala SM, Ghaderi R, Noei AR. Proton exchange membrane fuel cell voltage-tracking using artificial neural networks. J Zhejiang University SCIENCE C 2011;12:338-44.
22. Erdinc O, Vural B, Uzunoglu M. A wavelet-fuzzy logic based energy management strategy for a fuel cell/battery/ultra-capacitor hybrid vehicular power system. J Power Sour 2009;194:369-80.
23. Matraji I, Laghrouche S, Wack M. Pressure control in a PEM fuel cell via second order sliding mode. Int J Hydrogen Energy 2012;37:16104-16.
24. Li Q, Chen W, Wang Y, Jia J, Han M. Nonlinear robust control of proton exchange membrane fuel cell by state feedback exact linearization. J Power Sour 2009;194:338-48.
25. Pukrushpan JT, Peng H, Stefanopoulou AG. Simulation and analysis of transient fuel cell system performance based on a dynamic reactant flow model. ASME Int Mech. Eng Congr Exposit 2002;36290:637-48.
26. Rakhtala SM, Noei AR, Ghaderi R, Usai E. Design of finite-time high-order sliding mode state observer: a practical insight to PEM fuel cell system. J Process Control 2014;24:203-24.
27. Roy AK, Biswal GR, Basak P. An integrated rule-based power management and dynamic feed-forward low voltage ride through scheme for a grid-connected hybrid energy system. J Renew Sustainable Energy 2020;12:056303.
28. Khan M, Iqbal M. Dynamic modeling and simulation of a small wind–fuel cell hybrid energy system. Renew Energy 2005;30:421-39.
29. Zeng W, Zhu W, Hui T, et al. An IMC-PID controller with Particle Swarm Optimization algorithm for MSBR core power control. Nucl Eng Des 2020;360:110513.
30. Iqbal M. Simulation of a small wind fuel cell hybrid energy system. Renew Energy 2003;28:511-22.
