Benchmark models provide a common platform that facilitates comparison of different methods and strategies that can be further validated in a real representation of the power system. Nevertheless, when using RMS test cases, transients present in modern power systems may be neglected. Modern energy conversion systems require an enhanced level of detail in order to properly represent their behavior. Moreover, due to the steady increase of non-synchronous generation, new operation and management strategies need to be tested to ensure power system security. One way to overcome these constraints is to use EMT real-time digital simulations which allows to obtain high precision results in a timeframe suited to a specific study. This work presents an EMT real-time model for integration studies of advanced energy conversion systems that can be flexibly expanded to higher renewable penetration. The model, based on the Simplified Australian 14-Generator test system, has been expanded to represent in an improved way the dynamics of power system components as well as the high penetration of non-synchronous power electronics generation. Transient simulations are undertaken to illustrate system's response due to non-synchronous generation and when faults are applied. This work also addresses the current gap in benchmark models for real-time simulations.

中文翻译：

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开发用于高级能量转换系统集成研究的实时基准模型

基准模型提供了一个通用平台，可以促进不同方法和策略的比较，这些方法和策略可以在电力系统的真实表示中进一步验证。然而，在使用 RMS 测试案例时，现代电力系统中存在的瞬变可能会被忽略。现代能量转换系统需要更高级别的细节才能正确表示其行为。此外，由于非同步发电量的稳步增加，需要测试新的运行和管理策略，以确保电力系统的安全。克服这些限制的一种方法是使用 EMT 实时数字模拟，它允许在适合特定研究的时间范围内获得高精度结果。这项工作提出了一个 EMT 实时模型，用于先进能源转换系统的集成研究，可以灵活地扩展到更高的可再生能源渗透率。该模型基于简化的澳大利亚 14 发电机测试系统，已扩展为以改进的方式表示电力系统组件的动态以及非同步电力电子发电的高渗透率。进行瞬态模拟以说明由于非同步发电和应用故障时系统的响应。这项工作还解决了实时模拟基准模型的当前差距。已经扩展到以改进的方式代表电力系统组件的动态以及非同步电力电子发电的高渗透率。进行瞬态模拟以说明由于非同步发电和应用故障时系统的响应。这项工作还解决了实时模拟基准模型的当前差距。已经扩展到以改进的方式代表电力系统组件的动态以及非同步电力电子发电的高渗透率。进行瞬态模拟以说明由于非同步发电和应用故障时系统的响应。这项工作还解决了实时模拟基准模型的当前差距。