Numerical Methods for the Analysis of Power Transformer Tank Deformation and Rupture Due to Internal Arcing Faults

Yan, Chenguang; Hao, Zhiguo; Zhang, Song; Zhang, Baohui

doi:10.1371/journal.pone.0133851

Cited by 11 publications

(4 citation statements)

References 17 publications

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“…Due to the action of a short circuit, the internal arc in an oil-immersed transformer will result in high temperatures in the arc gas and the surrounding oil [3], but won't ignite a fire within the tank if oxygen is not available. Oil with dissolved oxygen cannot ignite a fire [4].…”

Section: Figure 2 Hv Tubular Oil Bushing Detailsmentioning

confidence: 99%

Strength Analysis of Tubular Oil to Oil Cable Box Power Transformer GIS 60 MVA in the Case of Voltage Arc Energy Using the Finite Element Analysis Method

Wilarso¹

2023

JESR

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The power transformer is an essential part of the electrical distribution system because it must be reliable and safe from fire and explosions, one of which is brought on by internal oil arching that results in overheating. In general, on the high voltage side of the transformer, there are power transformers fitted with tubular oil to oil cable boxes for the demands of the client. The tubular oil to oil cable box is installed to reduce space in substations with limited space as well as to boost safety against weather and pollution at the high voltage terminal section of power transformers. The goal of this investigation is to determine the cause of an explosion that occurred in a tubular oil-to-oil cable box on the high voltage side of a Gas Insulation System (GIS) type power transformer with a power of 60 MVA and a voltage rating of 150/20 kV. For all parties involved, this incident will serve as a lesson about what to avoid doing in the future with similar power transformers. In this study, we will use a qualitative method with Finite Element Analysis (FEA), which takes samples and data of a Gas Insulation System (GIS) power transformer on the high voltage side, especially in the analysis of tubular strength. This power transformer has a voltage rating of 150/20 kV and a power of 60 MVA. Applying normal pressure to a pressure that could harm the tubular oil to oil cable box can prevent damage. The tubular oil to oil cable box is built of SS400 material and has an 8mm thickness so that it can be determined how robust it is.

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Section: Figure 2 Hv Tubular Oil Bushing Detailsmentioning

confidence: 99%

Strength Analysis of Tubular Oil to Oil Cable Box Power Transformer GIS 60 MVA in the Case of Voltage Arc Energy Using the Finite Element Analysis Method

Wilarso¹

2023

JESR

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“…Transformator memenuhi syarat seismik menggunakan teknik canggih yang melibatkan kedua analisis seismik untuk memastikan bahwa transformator aman dari gempa bumi. b) Metode numerik untuk analisis deformasi dan pecahnya tangki transformator daya karena internal arcing fault [3]. Dalam…”

Section: Pendahuluanunclassified

Analisis Pengaruh Bentuk Stiffener Terhadap Kekuatan Main-Tank Pada Transformator Tenaga

Khoirudin

2021

JTMMX

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Transformator adalah perangkat statis yang digunakan untuk mentransfer energi listrik dari satu rangkaian ke rangkaian lain melalui induksi elektromagnetik tanpa perubahan frekuensi. Salah satu komponen utama transformator tenaga adalah tangki transformator. Struktur tangki transformator harus bisa menahan beban tekanan, vacuum, lifting, jacking, dan transportasi. Untuk mengurangi beban tekanan dan lendutan maka tangki transformator dipasang stiffener pada semua sisi. Penelitian ini dilakukan untuk mengetahui kekuatan tangki transformator dengan pendekatan numerik. Tangki transformator dipasang stiffener dengan tiga variasi yaitu tipe flat, tipe T dan tipe box dengan variasi tekanan yaitu sebesar 133 Pa dan 98 kPa. Penelitian ini bertujuan untuk mengetahui tegangan, regangan, dan deformasi pada masing-masing desain tangki transformator tenaga 150/20 kV 60 MVA. Hasil penelitian menunjukan bahwa desain tangki transformator dengan stiffener tipe T mempunyai tegangan (stress) dan regangan (strain) paling rendah dibanding desain yang lain. Pada tekanan 133 Pa tegangan (stress) yang terjadi pada tangki transformator dengan stiffener tipe T sebesar 0,255 MPa dan regangan (strain) sebesar 0,0000009, sedangkan pada tekanan 98 kPa tegangan (stress) yang terjadi sebesar 188 MPa dan regangan (strain) sebesar 0,000664. Desain tangki transformator dengan stiffener tipe box mempunyai deformasi (displacement) paling rendah dibanding dengan desain yang lain. Pada tekanan 133 Pa deformasi yang terjadi pada tangki transformator dengan stiffener tipe box sebesar 0,0049 mm, sedangkan pada tekanan 98 kPa sebesar 3,63 mm. Kata kunci: transformator tenaga, tangki transformator, tegangan, regangan, deformasi. Transformer is a static device used to transfer electrical energy from one circuit to another through electromagnetic induction without changes in frequency. One of the main components of a power transformer is a transformer tank. The transformer tank structure must be able to withstand pressure, vacuum, lifting, jacking and transportation loads. To reduce the pressure and deflection load, transformer tanks are installed with stiffener on all sides. This research was conducted to determine the strength of the transformer tank with a numerical approach. Transformer tank mounted stiffener with three variations of type namely flat type, T-type and box type with pressure variations that are 133 Pa and 98 kPa. This study aims to determine the stress, strain, and deformation in each 150/20 kV 60 MVA power transformer tank design. The results showed that the design of the transformer tank with T-type stiffener has the lowest stress and strain compared to other designs. At a pressure of 133 Pa the stress that occurs in a transformer tank with a T-type stiffener is 0.255 MPa and strain is 0.0000009, while at pressure 98 kPa the stress occurs at 188 MPa and strain is 0.000664. Transformer tank design with box type stiffener has the lowest deformation compared to other designs. At a pressure of 133 Pa, the deformation that occurs in a transformer tank with a box-type stiffener is 0.0049 mm, while at a pressure of 98 kPa is 3.63 mm. Keywords: power transformer, transformer tank, stress, strain, deformation.

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“…In 2006, an official report from United States Fire Administration (USFA) indicated that arc-fault had already become one of the major reasons for electrical fires in America [ 6 ]. Until now arc-fault is not only an issue of home fire safety, but also a huge threat to electrical appliances used in special fields for public such as power station, air and space craft [ 7 – 8 ].…”

Section: Introductionmentioning

confidence: 99%

An experimental study on the thermal characteristics and heating effect of arc-fault from Cu core in residential electrical wiring fires

Zeng

et al. 2017

PLoS ONE

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The characteristics of a series direct current (DC) arc-fault including both electrical and thermal parameters were investigated based on an arc-fault simulator to provide references for multi-parameter electrical fire detection method. Tests on arc fault behavior with three different initial circuit voltages, resistances and arc gaps were conducted, respectively. The influences of circuit conditions on arc dynamic image, voltage, current or power were interpreted. Also, the temperature rises of electrode surface and ambient air were studied. The results showed that, first, significant variations of arc structure and light emitting were observed under different conditions. A thin outer burning layer of vapor generated from electrodes with orange light was found due to the extremely high arc temperature. Second, with the increasing electrode gap in discharging, the arc power was shown to have a non monotonic relationship with arc length for constant initial circuit voltage and resistance. Finally, the temperature rises of electrode surface caused by heat transfer from arc were found to be not sensitive with increasing arc length due to special heat transfer mechanism. In addition, temperature of ambient air showed a large gradient in radial direction of arc.

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Numerical Methods for the Analysis of Power Transformer Tank Deformation and Rupture Due to Internal Arcing Faults

Cited by 11 publications

References 17 publications

Strength Analysis of Tubular Oil to Oil Cable Box Power Transformer GIS 60 MVA in the Case of Voltage Arc Energy Using the Finite Element Analysis Method

Strength Analysis of Tubular Oil to Oil Cable Box Power Transformer GIS 60 MVA in the Case of Voltage Arc Energy Using the Finite Element Analysis Method

Analisis Pengaruh Bentuk Stiffener Terhadap Kekuatan Main-Tank Pada Transformator Tenaga

An experimental study on the thermal characteristics and heating effect of arc-fault from Cu core in residential electrical wiring fires

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