OCR Optimization Setting on Industry System PT. Petrokimia Gresik Considering Inrush Current Using Adaptive Modified Firefly Algorithm

2023 International Seminar on Intelligent Technology and Its Applications (ISITIA) Pub Date : 2023-07-26 DOI:10.1109/ISITIA59021.2023.10221039

Mar’Atus Shalikhah Nur Fitri, M. Pujiantara, V. Lystianingrum

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Abstract

In the industry, frequent load changes make the potential for short-circuit disturbances considerably. Therefore, an effective protection coordination system is required to secure the industrial equipment. A protective system must properly and securely reduce disturbances to avoid unexpected effects such as more severe equipment failures, power outages, and human safety risks. Protection coordination that integrates with another is necessary to create a more reliable protection system. The best protection has a structure that works quickly to secure disturbances so that they do not spread to other networks and has excellent coordination for identifying the types of disturbances. The leading benchmark for setting protection relays is TDS. The TDS (Time Dial Setting) parameter must be filled in while coordinating protection, especially in the overcurrent relay. TDS controls how long the relay operates for resolving a fault. The TDS value is typically calculated and analyzed to get the minimum TDS value. Despite this, considering the inrush current transformer. However, PT Petrokimia Gresik electricity system demonstrates the trial-and-error method of changing the curve until the CTI is used to obtain the correct TDS value in collaboration with other relays. An algorithm can be used to simplify and provide accurate TDS results. This final project will discuss calculating the TDS inverse time overcurrent relay with the Adaptive Modified Firefly Algorithm (AMFA) method on the electricity system at PT Petrokimia Gresik to get the minimum TDS value. This study used 2 typical with a radial system, and its network contains 3 transformers. If a disturbance occurs, this authorizes an inrush current to flow. Consequently, it is evaluated. The results of the study obtained the relay TDS value using the AMFA algorithm to get the optimum value below the specified maximum limit, considering inrush current.

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工业系统PT的OCR优化设置。考虑涌流的自适应改进萤火虫算法

在工业中，频繁的负载变化使短路干扰的可能性相当大。因此，需要一个有效的保护协调系统来保障工业设备的安全。保护系统必须合理、安全地减少干扰，以避免意外影响，如更严重的设备故障、停电和人身安全风险。为了建立一个更可靠的保护系统，需要相互整合的保护协调。最好的保护具有一种结构，它可以快速地保护干扰，使它们不会传播到其他网络，并且在识别干扰类型方面具有出色的协调能力。设定保护继电器的主要基准是TDS。协调保护时必须填写TDS (Time Dial Setting)参数，特别是在过流继电器中。TDS控制继电器为解决故障而工作的时间。通常对TDS值进行计算和分析，以获得最小TDS值。尽管如此，考虑到变压器的涌流电流。然而，PT Petrokimia Gresik电力系统展示了改变曲线的试错方法，直到CTI与其他继电器协作使用以获得正确的TDS值。一种算法可以简化并提供准确的TDS结果。本期末课题将讨论在Petrokimia Gresik电站电力系统上用自适应修正萤火虫算法(AMFA)计算TDS逆时过流继电器，以获得最小的TDS值。本研究采用2台典型带径向系统，其网络包含3台变压器。如果发生扰动，就会产生涌流。因此，它被求值。研究结果表明，在考虑浪涌电流的情况下，采用AMFA算法求得继电器TDS值低于规定的最大限值的最优值。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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2023 International Seminar on Intelligent Technology and Its Applications (ISITIA)

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