【论文推荐】泰国亚洲理工学院特里斯坦·马加隆等：电网互联和可再生能源接入对菲律宾-沙巴电网的影响研究

摘要

本文对作为东盟电网一部分的菲律宾-沙巴电网稳定性进行了全面影响分析。考虑到可再生能源的高渗透性，本文侧重于对互联系统的动态性能进行建模和评估。利用MATLAB中的电力系统分析工具箱（PSAT）软件，进行了潮流、小信号稳定性和瞬态稳定性分析，以评估所提出的电力系统模型承受小扰动和大扰动的能力。模型中使用的所有组件都记录在PSAT库中。目前，缺乏关于实施这一具体制度的公开研究。此外，本文还调查了可再生能源渗透率高的系统行为。基于此，可得出如下结论：在实现电力互连时，给定适当位置和动态部件参数，电力系统通常是稳定的。随着可再生能源的增加，系统的临界特征值也会随之改善。

Impact of interconnections and renewable energy integration on the Philippine–Sabah Power Grid systems

电网互联和可再生能源接入对菲律宾-沙巴电网的影响研究

Tristan G. Magallones, Jr.^{1, 2}, Jai Govind Singh¹

1.Department of Energy, Environment and Climate Change, SERD, Asian Institute of Technology,Pathumthani 12120, Thailand

2.Department of Electrical Engineering, Central Mindanao University, Bukidnon 8710, Philippines

Abstract

This study presents a comprehensive impact analysis of the rotor angle stability of a proposed international connection between the Philippines and Sabah, Malaysia, as part of the Association of Southeast Asian Nations(ASEAN) Power Grid. This study focuses on modeling and evaluating the dynamic performance of the interconnected system, considering the high penetration of renewable sources. Power flow, small signal stability, and transient stability analyses were conducted to assess the ability of the proposed linked power system models to withstand small and large disturbances, utilizing the Power Systems Analysis Toolbox (PSAT) software in MATLAB. All components used in the model are documented in the PSAT library. Currently, there is a lack of publicly available studies regarding the implementation of this specific system. Additionally, the study investigates the behavior of a system with a high penetration of renewable energy sources. Based on the findings, this study concludes that a system is generally stable when interconnection is realized, given its appropriate location and dynamic component parameters. Furthermore, the critical eigenvalues of the system also exhibited improvement as the renewable energy sources were augmented.

Keywords

Modeling of ASEAN Power Grid; Rotor angle stability of asynchronous Philippine-Sabah interconnection in ASEAN Power Grid; The impact of renewable energy integration on Philippine-Sabah interconnection in ASEAN Power Grid

Fig. 1 SPVG block diagram

Fig. 2 Basic configuration of a DFIG wind turbine

Fig. 3 Single line diagram of the Philippine-Sabah interconnected model

Fig. 4 Philippine PSAT model eigenvalues

Fig. 5 Luzon-Visayas link model time domain simulation results

Fig. 6 Philippine PSAT model eigenvalues

Fig. 7 Voltage of synchronous machines without PSS

Fig. 8 Voltage of synchronous machine with PSS

Fig. 9 Philippine–Sabah model eigenvalues

Fig. 10 Philippine–Sabah model with high penetration of RE voltage profile and summary of power flow

Fig. 11 Philippine–Sabah model voltage per area with 20%

increase in penetration of RE

本文引文信息

Tristan G. Magallones, Jr, Jai Govind Singh (2023) Impact of interconnections and renewable energy integration on the Philippine–Sabah Power Grid systems, Global Energy Interconnection, 6(3): 253-272

特里斯坦·马加隆，贾伊·戈温德·辛格 (2023) 电网互联和可再生能源接入对菲律宾-沙巴电网的影响研究. 全球能源互联网（英文）, 6(3): 253-272

Biographies

Mr. Tristan G Magallones Jr

Mr.Tristan G Magallones Jr received his Master of Engineering degree, Major in Energy at Asian Institute of Technology(AIT), Klong Luang, Pathumthani, Thailand,2016.He received his Bachelor of Science in Electrical Engineering at Central Mindanao University (CMU), Musuan, Maramag Bukidnon, Philippines last 2011.He is working towards his PhD in Energy Engineering degree at University of the Philippines Diliman, Quezon City,Philippines.Currently, he is also working as a faculty member at Central Mindanao University in Bukidnon, Philippines.His research interests include power system stability studies and renewable energy integration studies.

Dr. Jai Govind Singh

Dr.Jai Govind Singh received a Ph.D.degree from IIT Kanpur.Currently, he is working as an Associate Professor at the Department of Energy, Environment and Climate Change,SERD, Asian Institute of Technology (AIT),Bangkok, Thailand.Prior to joining AIT, he worked as a Postdoctoral Research Associate at the KTH Royal Institute of Technology(KTH), Stockholm, Sweden, and as a postdoctoral research fellow at the University of Queensland, Brisbane, Australia.So far, he has supervised seven doctoral and 70 master’s students and has published more than 100 research papers in peer-reviewed international journals and conference proceedings.His teaching and research interests include power system planning, operation, and control, smart grids and microgrids; electric vehicles and battery storage, deregulation,solar and wind integration, and power distribution system planning.He is a fellow of The Institution of Engineers, India.

编辑：王彦博

审核：王伟

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Impact of interconnections and renewable energy integration on the Philippine–Sabah Power Grid systems

【论文推荐】泰国亚洲理工学院 特里斯坦·马加隆等：电网互联和可再生能源接入对菲律宾-沙巴电网的影响研究

郑重声明

【论文推荐】泰国亚洲理工学院特里斯坦·马加隆等：电网互联和可再生能源接入对菲律宾-沙巴电网的影响研究