Experimental Procedure for Determining the Remanent Magnetic Flux Value Using the Nominal AC Energization

IF 0.8 Q4 ENGINEERING, ELECTRICAL & ELECTRONIC International Journal of Electrical and Computer Engineering Systems Pub Date : 2023-11-14 DOI:10.32985/ijeces.14.9.12

Dragan Vulin, Denis Pelin, Mario Franjković

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Abstract

The laboratory setup and corresponding experimental procedure for determining the remanent magnetic flux in the magnetic core of a single-phase transformer are presented in this paper. Using the proposed method, the remanent flux can be determined without prior knowledge of any parameter or past states of the transformer which is a significant advantage compared to previously known methods. Furthermore, reliable information about the remanent flux could be obtained using less equipment than other methods. Only electrical measurements are needed, without any physical intervention in the core or some other parts of the transformer. However, the major drawback is that some new unknown value of the remanent flux is set after the measuring procedure. Various initial conditions of the remanent flux and the closing voltage angle are set before each energization of the transformer to prove the validity of the proposed method, which can be used to obtain some characteristics of the remanent flux, such as stability over time or its dependence on some external factors.

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使用标称交流通电确定剩余磁通值的实验程序

本文介绍了测定单相变压器磁芯剩余磁通的实验装置和相应的实验步骤。使用所提出的方法，可以确定剩余磁通，而不需要事先知道变压器的任何参数或过去的状态，这与以前已知的方法相比是一个显着的优势。此外，与其他方法相比，使用较少的设备可以获得关于剩余通量的可靠信息。只需要进行电气测量，而不需要对变压器的铁芯或其他部分进行任何物理干预。然而，主要的缺点是在测量过程之后设置了一些新的未知的剩余通量值。在变压器每次通电前设置剩余磁通和合闸电压角的各种初始条件，以证明所提方法的有效性，可用于获得剩余磁通的一些特性，如随时间的稳定性或对某些外部因素的依赖性。

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International Journal of Electrical and Computer Engineering Systems ENGINEERING, ELECTRICAL & ELECTRONIC-

CiteScore

1.20

自引率

11.80%

发文量

期刊介绍： The International Journal of Electrical and Computer Engineering Systems publishes original research in the form of full papers, case studies, reviews and surveys. It covers theory and application of electrical and computer engineering, synergy of computer systems and computational methods with electrical and electronic systems, as well as interdisciplinary research. Power systems Renewable electricity production Power electronics Electrical drives Industrial electronics Communication systems Advanced modulation techniques RFID devices and systems Signal and data processing Image processing Multimedia systems Microelectronics Instrumentation and measurement Control systems Robotics Modeling and simulation Modern computer architectures Computer networks Embedded systems High-performance computing Engineering education Parallel and distributed computer systems Human-computer systems Intelligent systems Multi-agent and holonic systems Real-time systems Software engineering Internet and web applications and systems Applications of computer systems in engineering and related disciplines Mathematical models of engineering systems Engineering management.

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