Investigation of Photovoltaic Hosting Capacity Using Minimum Generation Operation Approach

Q3 Mathematics

Indonesian Journal of Electrical Engineering and Informatics Pub Date : 2023-09-30 DOI:10.52549/ijeei.v11i3.4856

Syafii Syafii, Thoriq Kurnia Agung, Dawam Habibullah

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Abstract

Photovoltaic (PV) have become a priority renewable energy source to be developed in Indonesia to achieve new and renewable energy (NRE) target of 23% in 2025 and 31% in 2050. The operation of a significant number of rooftop PV can also change the type of power system operating configuration to Distributed Energy Generation (DEG). The majority of DEGs which are NRE generators are capable of causing new problems because of their intermittent nature. Hosting Capacity is a high penetration limit for NRE without causing problems and limits on operational violations. The hosting capacity method used is based on the generator's minimum operation. In the test system consisting of 3 power plants such as hydro power plant, coal power plant, and geothermal power plant, the PV capacity that can be injected into the system is 139.1 MW. With PV injection based on hosting capacity, the system becomes better with the same average voltage profile as before PV injection, namely 0.991 p.u. System stability by reviewing the frequency, rotor angle, and rotor speed, the system after PV injection is better than before PV injection.

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基于最小发电运行法的光伏装机容量研究

光伏(PV)已成为印尼优先开发的可再生能源，以实现2025年23%和2050年31%的新能源和可再生能源(NRE)目标。大量屋顶光伏的运行也可以改变电力系统运行配置的类型，以分布式能源发电(DEG)。由于其间歇性的特性，大多数发电机都有可能产生新的问题。托管容量是NRE在不引起问题和限制操作违规的情况下的高渗透限制。所使用的托管容量方法是基于发电机的最小运行。在由水电厂、燃煤电厂、地热电厂3个电站组成的试验系统中，可注入系统的光伏容量为139.1 MW。根据主机容量进行PV注入后，系统的平均电压曲线与PV注入前相同，即0.991 p.u，系统稳定性较好。从频率、转子角度、转子转速来看，PV注入后系统的稳定性优于PV注入前。

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来源期刊

Indonesian Journal of Electrical Engineering and Informatics Computer Science-Computer Science (miscellaneous)

CiteScore

1.50

自引率

0.00%

发文量

期刊介绍： The journal publishes original papers in the field of electrical, computer and informatics engineering which covers, but not limited to, the following scope: Electronics: Electronic Materials, Microelectronic System, Design and Implementation of Application Specific Integrated Circuits (ASIC), VLSI Design, System-on-a-Chip (SoC) and Electronic Instrumentation Using CAD Tools, digital signal & data Processing, , Biomedical Transducers and instrumentation. Electrical: Electrical Engineering Materials, Electric Power Generation, Transmission and Distribution, Power Electronics, Power Quality, Power Economic, FACTS, Renewable Energy, Electric Traction. Telecommunication: Modulation and Signal Processing for Telecommunication, Information Theory and Coding, Antenna and Wave Propagation, Wireless and Mobile Communications, Radio Communication, Communication Electronics and Microwave, Radar Imaging. Control: Optimal, Robust and Adaptive Controls, Non Linear and Stochastic Controls, Modeling and Identification, Robotics, Image Based Control, Hybrid and Switching Control, Process Optimization and Scheduling, Control and Intelligent Systems. Computer and Informatics: Computer Architecture, Parallel and Distributed Computer, Pervasive Computing, Computer Network, Embedded System, Human—Computer Interaction, Virtual/Augmented Reality, Computer Security, Software Engineering (Software: Lifecycle, Management, Engineering Process, Engineering Tools and Methods), Programming (Programming Methodology and Paradigm), Data Engineering (Data and Knowledge level Modeling, Information Management (DB) practices, Knowledge Based Management System, Knowledge Discovery in Data).