Transient Stability Analysis of DC Off-Grid Photovoltaic Hydrogen Production Systems Considering Electrolyzer Operating States.
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| Title: | Transient Stability Analysis of DC Off-Grid Photovoltaic Hydrogen Production Systems Considering Electrolyzer Operating States. |
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| Authors: | Kong, Lingguo1 (AUTHOR) klgwin@126.com, Ding, Yuxuan1,2 (AUTHOR), Tian, Yangjin2,3 (AUTHOR), Xu, Guizhi1,3 (AUTHOR) |
| Source: | Energies (19961073). May2026, Vol. 19 Issue 9, p2013. 22p. |
| Subject Terms: | *Dynamic stability, *Lyapunov stability, *Hydrogen production, *Nonlinear dynamical systems |
| Abstract: | This paper investigates the transient stability characteristics of a DC-coupled off-grid photovoltaic hydrogen production system. A nonlinear state-space model of the system is established by integrating the photovoltaic generation unit, the energy storage unit, and the electrolyzer unit. To enhance system dynamic performance, a virtual DC machine (VDCM) control strategy is introduced for the energy storage converter. Based on the nonlinear system model, a Takagi–Sugeno (TS) fuzzy model is constructed to approximate the system dynamics, and the largest estimated domain of attraction (LEDA) is derived using Lyapunov stability theory. Simulation studies are conducted to evaluate system stability under sudden photovoltaic power fluctuations caused by environmental disturbances, and the obtained LEDA is compared with the simulated attraction domain and the power boundary derived from the Lyapunov eigenvalue method. The results show that the LEDA obtained from the TS fuzzy model can effectively estimate the stability boundary of the system, although it remains slightly conservative. Furthermore, the impacts of VDCM control parameters and electrolyzer operating states on system stability are analyzed. Simulation results demonstrate that appropriate adjustment of system parameters can enlarge the LEDA and significantly improve the transient stability of the off-grid photovoltaic hydrogen production system. [ABSTRACT FROM AUTHOR] |
| Database: | Energy & Power Source |
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