Steady-state analysis of a hybrid power supply system using an induction generator with a shunt AC/DC converter

Electrical Engineering & Electromechanics Pub Date : 2024-02-24 DOI:10.20998/2074-272x.2024.2.10

L. Mazurenko, O. Dzhura, M. Shykhnenko

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Abstract

Hybrid power supply systems (HPSSs) are considered as a good option for electric power supply of remotely located from the grid consumers due to significant fuel savings compared to diesel sets. Quick development and improvement of HPSSs may be achieved using specialized methodologies and programs. In the paper a schematic diagram is proposed and operation principles of a 400 V / 50 Hz HPSS were developed. The system’s main component is the master generating unit of the hydropower plant using a 250 kW induction generator (IG). The voltage of the system is controlled by the controller of the AC/DC power converter. The electrical frequency of the system is controlled by the speed controller of the hydropower turbine. A wind turbine, an energy storage system and a regulated dump load are connected to the IG through the AC/DC converter. Goal. The paper aims to develop a methodology for steady state performance analysis of the hydraulic turbine driven isolated IG operating in parallel through an AC/DC power converter with additional sources and consumers of active power. Methodology. The methodology for evaluation of performance characteristics of the IG operating in the proposed system has been developed. The methodology is based on the equivalent circuit of the system, equations of active and reactive power balance in the system and the superposition method. Results. The equations of frequency, voltage and power regulators of the system are given. The performance characteristics of the IG operating in the system supplying resistive and RL load in «constant voltage – constant frequency» mode are obtained. Novelty. The developed methodology is innovative in taking into account the control algorithms of the system. The comparative analysis of the IG’s performance operating in the stand-alone generating unit and in the generating unit connected to the proposed system is performed. Practical value. The developed methodology can be used for development and performance improvement of hybrid AC power systems.

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使用带并联交直流转换器的感应发电机的混合供电系统的稳态分析

与柴油发电机组相比，混合动力供电系统（HPSS）可显著节省燃料，因此被认为是为远离电网的偏远地区用户供电的良好选择。使用专门的方法和程序可以快速开发和改进 HPSS。本文提出了 400 V/50 Hz HPSS 的原理图和运行原则。系统的主要组成部分是水电站的主发电机组，使用一台 250 千瓦的感应发电机（IG）。系统的电压由交流/直流电源转换器的控制器控制。系统的电频由水电涡轮机的速度控制器控制。风力涡轮机、储能系统和调节后的甩负荷通过 AC/DC 转换器与感应发电机相连。目标本文旨在开发一种方法，用于对通过 AC/DC 电源转换器与其他有功功率源和有功功率消费者并联运行的水轮机驱动隔离式中压发电机进行稳态性能分析。方法论。已开发出评估在拟议系统中运行的 IG 性能特征的方法。该方法基于系统的等效电路、系统中有功和无功功率平衡方程以及叠加法。结果。给出了系统的频率、电压和功率调节器方程。得出了在 "恒压-恒频 "模式下系统中为电阻负载和 RL 负载供电的中压调节器的性能特征。新颖性。所开发的方法在考虑系统的控制算法方面具有创新性。对独立发电机组和与拟议系统连接的发电机组中的中压发电机性能进行了比较分析。实用价值。所开发的方法可用于混合交流电力系统的开发和性能改进。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Electrical Engineering & Electromechanics

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