An Analysis Of Power Transformer Performance Reliability On The Effect Transient Recovery Voltage
Abstract
Technologies a power transformer is a crucial component in an electric power system that functions to change electric voltage from one level to another. Reliable transformer performance is essential to ensure the continuity of electricity supply and prevent significant losses. One phenomenon that can affect transformer reliability is Transient Recovery Voltage (TRV). This paper described the reliability of power transformer performance against the influence of TRV through simulations and experimental measurements. The research methodology includes literature review, mathematical modeling, simulation using electric power system analysis software, and laboratory testing. The research results show that TRV has a significant influence on transformer reliability, especially under conditions of major disturbances. Recommendations for mitigating the impact of TRV include the use of additional protective devices such as surge arresters and improving the quality of transformer insulation. By understanding the influence of TRV on transformer performance, it is expected to increase the reliability and operational lifespan of power transformers, as well as reduce the risk of economic losses due to transformer damage. This research makes an important contribution to the development of protection and maintenance techniques for power transformers in modern electric power systems.
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References
[2] Aryza, S., Wibowo, P., & Saputra, D. (2022, July). Rancang Bangun Alat Pengontrolan Proses Pemanasan Produksi Biodisel Dari Minyak Jelantah Berbasis Arduino Mega. In Prosiding Seminar Nasional Sosial, Humaniora, dan Teknologi (pp. 121-127).
[3] Aryza, S., Wibowo, P., & Saputra, D. (2022). AN ENHANCE DESIGN HEATING BIODIESEL PRODUCTION FROM OIL BASED ON ARDUINO MEGA. INFOKUM, 10(02), 1147-1155.
[4] Pradana, dkk. "Prototipe Pembangkit LIstrik Termoelektrik Generator Menggunakan Penghantar Panas Aluminium, Kuningan Daan seng." Jurnal teknik elektro 9.2 (2020).
[5] Puspita, Shanti Candra, Hasto Sunarno, and Bachtera Indarto. "Generator termoelektrik untuk pengisisan aki." Jurnal Fisika dan Aplikasinya 13.2 (2017): 84-87.
[6] Sasmita, Sandy Angriawan, et al. "Alternatif pembangkit energi listrik menggunakan prinsip termoelektrik generator." Tesla: Jurnal Teknik Elektro 21.1 (2019): 57-61.
[7] Sumarjo, dkk "Pemanfaatan sumber panas pada kompor menggunakan 10 termoelektrik generator dirangkai secara seri untuk aplikasi lampu penerangan." SINTEK JURNAL: Jurnal Ilmiah Teknik Mesin 11.2 (2017): 123-128.
[8] Tyas, Naufal Ridha. Uji Karakteristik Modul Termoelektrik Generator Seri 12705. Diss. Fakultas Teknik, 2017.
[9] Tharo, Z., & Hamdani, H. (2020). Analisis biaya pembangkit listrik tenaga surya (PLTS) atap skala rumah tangga. Journal of Electrical and System Control Engineering, 3(2), 65-71.