基于 RBFNN 的固定时间滑动模式控制,适用于带输入延迟的 PEMFC 供气系统

IF 9 1区 工程技术 Q1 ENERGY & FUELS
Mehran Derakhshannia, Seyyed Sajjad Moosapour
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引用次数: 0

摘要

确保质子交换膜燃料电池(PEMFC)在负载变化时快速调节氧过剩率(OER)是一项重要挑战。本文研究了具有输入延迟的质子交换膜燃料电池的定时滑动模式控制。首先,考虑了带有输入干扰和输入延迟的简化四阶非线性动力学模型,并选择了级联结构进行控制设计。设计了一个径向基函数神经网络(RBFNN)来估计输入干扰。为实现精确估计,利用布谷鸟搜索算法计算 RBFNN 的参数。然后,提出了一种新的滑模控制器,用于在固定时间内进行轨迹跟踪。为确保所提控制器的有效性,研究并证明了滑动和到达阶段的固定时间收敛性。最后,为 PEMFC 系统设计了一种基于鲁棒预测的滑动模态控制,该控制结合了干扰估计,可以消除输入延迟的影响。通过对比模拟,验证了所提控制器的有效性和鲁棒性。值得注意的是,这是首次针对输入延迟 PEMFC 提出基于预测器控制的研究。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
RBFNN based fixed time sliding mode control for PEMFC air supply system with input delay
Ensuring rapid regulation of the oxygen excess ratio (OER) in proton exchange membrane fuel cells (PEMFC) during load changes is an important challenge. In this paper, fixed time sliding mode control of a PEMFC with input delay has been investigated. First, a simplified fourth-order nonlinear dynamical model with input disturbance and input delay is considered and a cascade structure is selected for the control design. A radial basis function neural network (RBFNN) is designed to estimate the input disturbance. To achieve precise estimation, a Cuckoo Search Algorithm is utilized to calculate the parameters of the RBFNN. Then, a new sliding mode controller is proposed for trajectory tracking within a fixed time. To ensure the effectiveness of the proposed controller, the fixed time convergence of both sliding and reaching phases is investigated and proven. Finally, a robust prediction based sliding mode control is designed for the PEMFC system that by incorporating the disturbance estimation, can eliminate the effect of input delay. The effectiveness and robustness of the proposed controller are validated via comparative simulations. It is noteworthy that this is the first study to propose predictor based control for input delay PEMFCs.
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来源期刊
Renewable Energy
Renewable Energy 工程技术-能源与燃料
CiteScore
18.40
自引率
9.20%
发文量
1955
审稿时长
6.6 months
期刊介绍: Renewable Energy journal is dedicated to advancing knowledge and disseminating insights on various topics and technologies within renewable energy systems and components. Our mission is to support researchers, engineers, economists, manufacturers, NGOs, associations, and societies in staying updated on new developments in their respective fields and applying alternative energy solutions to current practices. As an international, multidisciplinary journal in renewable energy engineering and research, we strive to be a premier peer-reviewed platform and a trusted source of original research and reviews in the field of renewable energy. Join us in our endeavor to drive innovation and progress in sustainable energy solutions.
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