Determining the Appropriate use of 3 Phase 150 kV Transformer Oil Using the Fuzzy Method

Dina Maizana, MT, Moulando Tampubolon, Muhathir Muhathir, Muhammad Fadlan Siregar, Yanawati Yahya

Abstract


Transformer is electrical power equipment that functions to convert electrical energy from one voltage value to another through the action of a magnetic field. Transformers are important electrical equipment because they are directly connected to electricity transmission and distribution lines. The aim of this research is to analyze transformer oil and its suitability standards. The type of research used is quantitative research using the Dissolved Gas Analysis (DGA) method. The data obtained for this method will be calculated by applying Fuzzy Logic to map the problem or determine variables. The mapping results will then be calculated using Matlab as the result of mathematical data analysis in graph form.


Keywords


Analysis; Transformer; Dissolved Gas Analysis (DGA); Fuzzy Logic; Matlab

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References


Amalia, D., Murdiya, F., & Others. (2017). Analisa Gas Terlarut Pada Minyak Transformator Daya 150 Kv Dengan Menggunakan Metode Duval Pentagon. Riau University.

Anni, R., Asran, A., & Kartika, K. (2022). Analisis Keadaan Minyak Transformator Menggunakan Metode Logika Fuzzy Berdasarkan Kadar Gas Terlarut. Jurnal Pendidikan Tambusai, 6(2), 16200–16207.

Arnawan, H., Muzamir, I., Mohd, I. Y., Siti, R. A. R., & Hadi, S. (2021). Evaluation Of 20 Kv Distribution Network Losses In Radial Distribution Systems Due To Distributed Generation Penetration. Journal Of Physics: Conference Series, 2129(1), 12085.

Bakar, N. A., Abu-Siada, A., & Islam, S. (2014). A Review Of Dissolved Gas Analysis Measurement And Interpretation Techniques. Ieee Electrical Insulation Magazine, 30(3), 39–49.

Golarz, J. (2016). Understanding Dissolved Gas Analysis (Dga) Techniques And Interpretations. 2016 Ieee/Pes Transmission And Distribution Conference And Exposition (T&D), 1–5.

Hasibuan, A., Badrina, B., & Hasibuan, A. Z. (2019). Simulasi Analisis Aliran Daya Sub Sistem Aceh 150 Kv Menggunakan Software Powerworld Simulator. Journal Of Electrical And System Control Engineering, 3(1), 42–52.

Hasibuan, A., Isa, M., Nrartha, I. M. A., & Hardi, S. (2019). Improving Voltage Profile Of 150 Kv Transmission Line In Aceh Subsystem With Capacitor Bank Installation. 2019 3rd International Conference On Electrical, Telecommunication And Computer Engineering (Elticom), 140–144.

Hermawan, H., Syakur, A., & Iryanto, I. (2011). Analisis Gas Terlarut Pada Minyak Isolasi Transformator Tenaga Akibat Pembebanan Dan Penuaan. Teknik, 32(3), 203–211.

Ismail, R., Hasibuan, A., Nasution, E. S., Hardi, S., & Nrartha, I. M. A. (2020). Comparative Analysis Of Differential Relay Settings In Langsa Substation Transformer To Avoid Protection Failure. 2020 4rd International Conference On Electrical, Telecommunication And Computer Engineering (Elticom), 52–56.

Junfithrana, A. P., Kusumah, I. H., Suryana, A., Artiyasa, M., De Wibowo, A., & Others. (2019). Identifikasi Gas Terlarut Minyak Transformator Dengan Menggunakan Logika Fuzzy Menggunakan Metode Tdcg Untuk Menentukan Kondisi Transformator 150 Kv. Fidelity: Jurnal Teknik Elektro, 1(1), 11–15.

Lin, M.-J. (2014). A New Approach With Three Dimension Figure And Ansi/Ieee C57. 104 Standard Rule Diagnoses Transformer’s Insulating Oil. Engineering, 6(12), 841–848.

Lukman, L., Arief, Y. Z., Gamayel, A., & Wilyanti, S. (2023). Performance Analysis Of Nyamplung Oil (Calophyllum Inophyl-Lum) As An Alternative Liquid Electrical Insulation Material To Replace For Power Transformer Oil. Equivalent: Jurnal Ilmiah Sosial Teknik, 5(1), 96–101.

Mardiyanto, D. C. (N.D.). Analisis Keadaan Minyak Isolasi Transformator Daya Menggunakan Metode Fuzzy Logic Berdasarkan Data Dissolved Gas Analysis (Dga).

Nisworo, S., Hasibuan, A., Daud, M., Studi, P., Elektro, T., Teknik, F., & Malikussaleh, U. (2022). Evaluasi Kondisi Belitan Generator Transformers (Gt) Dengan Sweep Frequency Response Analysis. Rele (Rekayasa Elektrikal Dan Energi) : Jurnal Teknik Elektro, 5(1). Https://Doi.Org/10.30596/Rele.V5i1.10790

Pandiangan, T. D. M., Afiqadli, A., Napitupulu, J., & Jumari, J. (2023). Analisa Unjuk Kerja Transformator Tiga Phasa Gardu Induk Pematangsiantar Pt Pln (Persero). Jurnal Teknologi Energi Uda: Jurnal Teknik Elektro, 12(1), 24–35.

Romadhona, G., Wibowo, K. M., & Royan, R. (2021). Study Of Extra Virgin Olive Oil As Liquid Insulation In Transformer. Iop Conference Series: Earth And Environmental Science, 700(1), 12030.

Setiawan, A., Yanto, B., & Yasdomi, K. (2018). Logika Fuzzy Dengan Matlab (Contoh Kasus Penelitian Penyakit Bayi Dengan Fuzzy Tsukamoto). Jayapangus Press Books, I--217.

Sinuhaji, Y. P. (2012). Analisis Keadaan Minyak Isolasi Transformator Daya 150 Kv Menggunakan Metode Dissolved Gas Analysis (Dga) Dan Fuzzy Logic Pada Gardu Induk Wilayah Sidoarjo.

Sun, C., Ohodnicki, P. R., & Stewart, E. M. (2017). Chemical Sensing Strategies For Real-Time Monitoring Of Transformer Oil: A Review. Ieee Sensors Journal, 17(18), 5786–5806.

Utomo, P. (2019). Studi Analisis Kualitas Transformator Daya Gardu Induk 150 Kv Siantan. Journal Of Electrical Engineering, Energy, And Information Technology (J3eit), 7(1).




DOI: https://doi.org/10.29103/jreece.v4i2.17914

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