This paper reports on the status of technology development under a national project launched in 2019 to address the problem of decreased system inertia associated with the large-scale integration of renewable energy.T...This paper reports on the status of technology development under a national project launched in 2019 to address the problem of decreased system inertia associated with the large-scale integration of renewable energy.The project comprises two parts:the development of a system inertia observation technology using a continuous monitoring system to observe inertia and development of an inverter equipped with a function to provide virtual inertia as a countermeasure device.Utilizing both these efforts,the project aims to facilitate the introduction of renewable energy in the future with minimum restrictions.It was confirmed that the trend of inertia observed with the developed method was generally the same as that of the total inertia of synchronous machines observed by an electric utility.The effectiveness of the countermeasure device in reducing the frequency swing during a disturbance was confirmed through evaluation tests.展开更多
基金based on the results obtained from a project(JPNP19002)commissioned by the New Energy and Industrial Technology Development Organization(NEDO)supported by the TEPCO Power Grid,Inc.+9 种基金Tohoku Electric Power Network Co.,Inc.Chubu Electric Power Co.,Inc.Chubu Electric Power Grid Co.,Inc.Kansai Transmission and Distribution,Inc.Chugoku Electric Power Transmission and Distribution Co.,Inc.Kyushu Electric Power Co.,Inc.Kyushu Electric Power Transmission and Distribution Co.,Inc.Takaoka Toko Co.,Ltd.Tokushima UniversityOsaka Prefectural University。
文摘This paper reports on the status of technology development under a national project launched in 2019 to address the problem of decreased system inertia associated with the large-scale integration of renewable energy.The project comprises two parts:the development of a system inertia observation technology using a continuous monitoring system to observe inertia and development of an inverter equipped with a function to provide virtual inertia as a countermeasure device.Utilizing both these efforts,the project aims to facilitate the introduction of renewable energy in the future with minimum restrictions.It was confirmed that the trend of inertia observed with the developed method was generally the same as that of the total inertia of synchronous machines observed by an electric utility.The effectiveness of the countermeasure device in reducing the frequency swing during a disturbance was confirmed through evaluation tests.
