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燃料电池供电电动飞机多源直流网络稳定性分析
Stability Analysis of Multiple-Source DC Network in Fuel Cell-Powered Electric Aircraft
| 作者 | Peilin Liu · Xianwu Zeng · Jiawen Xi · Tom Feehally · Yangyang He · Xiaoze Pei |
| 期刊 | IEEE Journal of Emerging and Selected Topics in Power Electronics |
| 出版日期 | 2024年12月 |
| 技术分类 | 储能系统技术 |
| 技术标签 | 储能系统 下垂控制 |
| 相关度评分 | ★★★★★ 5.0 / 5.0 |
| 关键词 | 燃料电池 电动飞机 直流网络 稳定性分析 灵敏度分析 |
语言:
中文摘要
燃料电池供电电动飞机是航空电气化的重要发展方向。作为主能源的燃料电池向动态变化的恒功率负载提供推进功率,储能系统则维持系统功率平衡并调节直流母线电压。本文建立了简化的多源直流网络等效模型,用于开展非线性稳定性分析,预测负载扰动下的系统动态特性。基于雅可比矩阵与系统特征值,推导了稳定性边界,并结合分岔理论对下垂控制参数、直流电容及线路电感等关键参数进行灵敏度分析。理论分析结果对机载直流网络的可靠设计具有指导意义,仿真与实验验证了主要结论。
English Abstract
The fuel cell (FC)-powered electric aircraft (EA) is a promising architecture in the electrification of aviation. FCs, as the primary energy source, supply the thrust power to the dynamic change constant power load (CPL). Energy storage systems (ESSs) maintain the power balance in the system and regulate the dc-link voltage. In this article, the simplified multiple-source dc network is modeled. The equivalent model allows the performance of a nonlinear stability analysis to predict the system’s dynamic characteristics during load perturbations. Furthermore, a stability boundary is derived from the Jacobian matrix and eigenvalues of the system. Sensitivity analysis of key parameters, such as droop settings, dc capacitance, and line inductance is presented based on bifurcation theory. The theoretical analysis is instrumental in the design of a reliable onboard dc network. The key findings are validated by simulations and experimental tests.
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SunView 深度解读
该多源直流网络稳定性分析技术对阳光电源储能系统和新能源汽车产品线具有重要应用价值。文章提出的基于雅可比矩阵和分岔理论的非线性稳定性分析方法,可直接应用于ST系列储能变流器的下垂控制参数优化设计,特别是在多储能单元并联场景下,通过灵敏度分析优化直流母线电容和线路电感配置,提升PowerTitan大型储能系统在恒功率负载扰动下的动态稳定性。该研究对车载OBC充电机和电机驱动系统中的多源直流母线设计同样适用,可指导阳光电源开发面向电动航空等新兴领域的高可靠性直流配电方案,增强构网型GFM控制策略在弱电网环境下的鲁棒性。