Transient Stability Analysis of a Hybrid Grid-Connected Battery-PV in Baubau Power System

H. Suyanto, M. Hafidz, G. Alvianingsih
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引用次数: 1

Abstract

The electrical energy produced by fossil fuel has two disadvantages: the environment pollution, and nonrenewable nature. To overcome these problems, Photovoltaic (PV) technology has been developed. But, the characteristics of the PV output power depending on the intensity of the existing sunlight, so it can cause instability in the system. This instability can be minimized by combining a PV system with a battery. This study aims to conduct transient stability analysis on the Baubau power system when a 10 MWac hybrid PV-battery power plant is added. In this study, the power flow and stability analysis of the Baubau system was simulated using ETAP software and the energy mix from power plants was simulated using Homer Pro software. From the simulation result can be concluded that installation of 10 MWac PV + 4 MWh batteries in the Baubau System did not harm the overall system stability. The hybrid system can increase the power capacity and installed power of the system.
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Baubau电力系统并网电池-光伏混合系统暂态稳定性分析
化石燃料产生的电能有两个缺点:污染环境和不可再生。为了克服这些问题,光伏技术得到了发展。但是,光伏输出功率的特性取决于现有太阳光的强度,因此会导致系统不稳定。这种不稳定性可以通过将光伏系统与电池相结合来最小化。本研究的目的是对Baubau电力系统在增加10mwac的光伏-电池混合电站时的暂态稳定性进行分析。本研究采用ETAP软件对Baubau系统的潮流和稳定性分析进行仿真,采用Homer Pro软件对电厂的能量结构进行仿真。从仿真结果可以得出,在Baubau系统中安装10 MWac光伏+ 4 MWh电池并不会影响系统的整体稳定性。混合系统可以增加系统的发电容量和装机功率。
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