同步发电机运行改进的鲁棒自适应控制

IF 1.3 Q4 AUTOMATION & CONTROL SYSTEMS

International Journal of Automation and Control Pub Date : 2020-06-01 DOI:10.5772/intechopen.92558

J. Ritonja

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引用次数: 0

摘要

同步发电机生产了世界上95%的电力。即使是效率上的微小改进也代表着巨大的节约。同步发电机的机电振荡是有害的，它会造成损失，甚至导致不稳定。一个额外的控制系统，称为电力系统稳定器(PSS)，用于抑制同步发电机的振荡。电力系统稳定器的商业实现是基于线性控制理论的应用。由于同步发电机的非线性和时变特性，这些电力系统稳定器的效果较小。鲁棒和自适应控制的应用为保证在大工作范围内机电振荡的最佳阻尼提供了充分的理论基础。本文综述了先进控制理论在电力系统稳定器开发中的适用性。研究的重点是为电力系统稳定器的实现选择合适的鲁棒和自适应控制理论。介绍了滑模控制和直接自适应控制的适用性和优点，并评价了它们对系统运行改进的影响。

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Robust and Adaptive Control for Synchronous Generator’s Operation Improvement

Synchronous generators produce almost 95% of the world’s electricity. Even a small improvement in their efficiency represents huge savings. Electromechanical oscillations of synchronous generators are harmful—they cause losses and can even lead to instability. An additional control system, called a power system stabilizer (PSS), is used to damp the oscillations of synchronous generators. The commercial realizations of the power system stabilizers are based on the use of the linear control theory. The effectiveness of these power system stabilizers is small, because of the nonlinear and time-varying characteristics of the synchronous generators. The application of robust and adaptive control represents an adequate theoretical basis for ensuring optimal damping of the electromechanical oscillations in a wide operating range. This work reviews the applicability of the advanced control theories to develop power system stabilizers. The work is focused on selecting the appropriate robust and adaptive control theories for the power system stabilizer implementation. The applicability and advantages are presented of the sliding mode control and the direct adaptive control, along with an evaluation of their impact on the operation improvement.

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来源期刊

International Journal of Automation and Control AUTOMATION & CONTROL SYSTEMS-

自引率

41.70%

发文量

期刊介绍： IJAAC addresses the evolution and realisation of the theory, algorithms, techniques, schemes and tools for any kind of automation and control platforms including macro, micro and nano scale machineries and systems, with emphasis on implications that state-of-the-art technology choices have on both the feasibility and practicability of the intended applications. This perspective acknowledges the complexity of the automation, instrumentation and process control methods and delineates itself as an interface between the theory and practice existing in parallel over diverse spheres. Topics covered include: -Control theory and practice- Identification and modelling- Mechatronics- Application of soft computing- Real-time issues- Distributed control and remote monitoring- System integration- Fault detection and isolation (FDI)- Virtual instrumentation and control- Fieldbus technology and interfaces- Agriculture, environment, health applications- Industry, military, space applications