A. Toba, M. Seck, Matthew Amissah, Sarah Bouazzaoui
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引用次数: 5
摘要
现代电力系统的规模和复杂性,以及新兴技术和能源规划的不确定性,使这些系统的设计和工程具有挑战性。主要的挑战之一是开发能够充分捕捉这些系统组件之间复杂关系的模型。我们提出了一个基于DEVS(离散事件系统规范)的框架,用于为能源规划建模电力系统。DEVS保留了系统的分层和模块化构造属性(Chow and Zeigler 1994)。也就是说,它使系统的每个组件能够单独建模,以及该系统的多层体系结构的表示。作为概念验证,我们提出了一个电力系统模型,在PyPDEVS平台上模拟能源的部署(Van Tendeloo和Vangheluwe 2015),考虑了调调员、机组承诺、负载、发电、存储和输电线路组件。
An approach for DEVS based modeling of electrical power systems
The size and complexity of modern power systems, as well as emergent technologies and the uncertainty in energy planning, make the design and engineering of these systems challenging. One of the main challenges is the development of models that adequately capture the complex relationships between the components of these systems. We present a DEVS (Discrete Event System Specification) based framework for modeling a power system for energy planning. DEVS preserves the hierarchical and modular construction properties of a system (Chow and Zeigler 1994). That is, it enables each of the components of the system to be modeled separately, as well as the representation of the multilayer architecture of that system. As a proof of concept, we present a power system model, simulating the deployment of energy sources, on the PyPDEVS platform (Van Tendeloo and Vangheluwe 2015), considering dispatcher, unit commitment, load, generation, storage and transmission lines components.
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