NSERC/EDF/Hydro-Québec/Opal-RT/RTE IRC in multi time-frame simulation of transients for large scale power systems

NSERC/EDF/Hydro-Québec/Opal-RT/RTE IRC 用于大型电力系统瞬态的多时间帧仿真

• 批准号: 476309-2019
• 负责人: Mahseredjian, Jean
• 金额: $ 42.96万
• 依托单位: École Polytechnique de Montréal
• 依托单位国家: 加拿大
• 项目类别: Industrial Research Chairs
• 财政年份: 2021
• 资助国家: 加拿大
• 起止时间: 2021-01-01 至 2022-12-31
• 项目状态: 已结题
• 来源: https://www.nserc-crsng.gc.ca/ase-oro/Details-Detailles_eng.asp?id=719171
• 关键词: NSERC; EDF; Hydro; Qu; bec; NSERC; EDF; Hydro; Qu; bec

The complexity of modern power grids requires using advanced computer-based simulation methods and models for design, operation and post-mortem analysis stages. Numerical models and solution methods are more and more important and play dominant roles in technological advancements in modern power systems in Canada and in the world. This Chair renewal proposes to pursue established research on cutting-edge numerical methods and models capable of reaching new frontiers in computational performance, accuracy and flexibility. The proposed research uses the highest accuracy time-domain basis of electromagnetic transient (EMT) or detailed waveform analysis. A multi-time frame approach is researched. Computational speed and adaptive accuracy are key elements. A distinctive aspect in this Chair project is the fact that comprehensive and wideband algorithms will be delivered for solving complex, practical and large-scale networks from steady-state to transient conditions. This Chair renewal will allow to graduate 16 PhD students and 6 Master's students, in addition to hosting 6 postdoctoral fellows and supporting 2 research associates.The Canadian industrial partners in this Chair are Hydro-Quebec and Opal-RT. In addition to Canadian partners, there are two European partners in this project, namely Électricité de France (EDF) and Réseau de Transport d'Électricité in France (RTE). The goal is to solve problems identified by the industrial partners of this Chair and in related scientific literature. It will be possible to transmit the developed algorithms straightforwardly into industrial grade applications. The Chair will maintain the established research team at Polytechnique Montreal and deliver to the supporting organizations, highly qualified personnel and timely research on power system simulation and analysis methods. The Chair will similarly contribute to Canadian industry in the targeted field of research.

现代电网的复杂性需要使用基于高级计算机的模拟方法和模型进行设计，操作和验尸分析阶段。数值模型和解决方案方法越来越重要，并且在加拿大和世界上现代电力系统的技术进步中起主要作用。该主席更新提案旨在对能够在计算绩效，准确性和灵活性方面达到新的边界的尖端数值方法和模型进行建立研究。拟议的研究使用电磁瞬态（EMT）或详细波形分析的最高准确性时间域基础。研究了多次框架方法。计算速度和自适应精度是关键要素。该椅子项目的一个独特方面是，将提供全面和宽带算法，以从稳态到瞬态条件来解决复杂，实用和大规模的网络。此主席更新将允许毕业16名博士学位学生和6名硕士学生，此外还有6位博士后研究员并支持2位研究助理。该主席的加拿大工业伙伴是Hydro-Quebec和Opal-Rt。除了加拿大的合作伙伴外，该项目还有两个欧洲合作伙伴，即法国（EDF）和法国的RéseauDelectricité（RTE）。目的是解决该主席的工业伙伴和相关科学文献所确定的问题。可以将开发算法直接传输到工业级应用中。主席将维护蒙特利尔理工学院的既定研究团队，并将其交付给支持组织，高素质的人员以及及时的电力系统仿真和分析方法研究。主席将同样为目标研究领域的加拿大工业做出贡献。