Analisis Stabilitas Transien Tegangan dan Frekuensi pada Sistem Pembangkit Listrik Tenaga Uap

Anang Dasa Nofvowan, Mochammad Mieftah, Wijaya Kusuma
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引用次数: 1

Abstract

Electrical energy generated also comes from several energy, namely water, steam, nuclear, etc. In Indonesia the type ofsteam power plant is a type of power plant that is widely used, where one of the crucial problems that are often encountered in this generation system, namely the problem of stability. The stability of the electric power system is the ability of the system to return to normal or steady operation after a large load load switching or interference. Disruption or load switching that exist in the system must be muted and aligned in a certain time to be said to be stable. Causes of instability are disruptions in the form of large capacity load switching, and the type of interference. One aspect that affects the stability itself is the transient stability. The transient stability is related to the sudden influx of large-capacity loads and affect the performance of the generator, therefore it is necessary to analyze the voltage and frequency transient stability for the evaluation of the capability of the electrical system so that the system maintains the continuity of the supply of electrical energy to the load normally. Based on the research results, the current flowing before the disturbance of 98.9 A and current disturbance of 145.2 kA. This causes the voltage response to decrease 50% of the nominal, and the frequency increases to 50.36 Hz. The time required from the disturbance condition to a stable condition within 5 seconds.
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分析蒸汽发电厂系统的电压转运稳定性和频率
产生的电能也来自几种能源,即水、蒸汽、核能等。在印度尼西亚,蒸汽电厂是一种被广泛使用的电厂类型,其中一个关键问题是在这个发电系统中经常遇到的,即稳定性问题。电力系统的稳定性是指系统在大负荷负荷切换或干扰后恢复正常或稳定运行的能力。系统中存在的中断或负载切换必须在一定时间内被静音和对齐,才能说是稳定的。不稳定的原因是大容量负载切换形式的中断,以及干扰的类型。影响稳定性本身的一个方面是暂态稳定性。暂态稳定性关系到大容量负荷的突然涌入,影响发电机的工作性能,因此对电压和频率暂态稳定性进行分析是评价电力系统能力的必要手段,使系统能够正常地保持向负荷供电的连续性。根据研究结果,扰动前流过的电流为98.9 A,扰动前流过的电流为145.2 kA。这导致电压响应降低50%的标称,频率增加到50.36赫兹。从扰动状态到稳定状态所需的时间在5秒内。
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