Analysis of Imbalance Loads and Losses Based on The Largest Loading by 3 Units of 3 Phase Distribution Transformer

Zulfatri Aini; Esa Mutari; Liliana Liliana; Oriza Candra

doi:10.24036/jtev.v7i1.111965

Analysis of Imbalance Loads and Losses Based on The Largest Loading by 3 Units of 3 Phase Distribution Transformer

Zulfatri Aini⁽¹⁾, Esa Mutari⁽²⁾, Liliana Liliana⁽³⁾, Oriza Candra⁽⁴⁾,
(1) Universitas Islam Negeri Sultan Syarif Kasim Riau

Indonesia
(2) Universitas Islam Negeri Sultan Syarif Kasim Riau

Indonesia
(3) Universitas Islam Negeri Sultan Syarif Kasim Riau

Indonesia
(4) Universitas Negeri Padang

Indonesia

Corresponding Author

DOI : https://doi.org/10.24036/jtev.v7i1.111965

Full Text:

Language : en

Abstract

The imbalance load of distribution transformers often occurs.This is due to the fact that the load time amongst consumers is not the same, so that there is a difference in the value for each R, S, and T phase. The value difference of the phase causes overload in several phases so as the current emerges in neutral transformers. The current flowing in the neutral transformers causes the losses. In this research, the identification of the overload and the calculation of the distribution transformer load with the IEC reference standard which is allowed for 80% and the calculation of the imbalance transformer load with the 5% standard, then the losses resulting from the presence of neutral currents were carried out. There are three transformers in the Hangtuah feeder that have a load exceeded the standard, namely the DRI 0157, DRI 0241, and DRI 0065 transformers. The calculations for the three transformers are taken from measurement data in the form of voltage and current values for each phase during the daytime and nighttime and are simulated using ETAP 12.6.0 software. The symmetrical component method was used to obtain the imbalance value of the transformer load based on the measurement results and the ETAP simulation. The result of this research is the imbalance load occured in the three transformers. DRI 0241 is the transformer that has the largest percentage of an imbalance load at night. At nighttime, based on the measurement results of the DRI 0241, the transformer load is 80% and 65% at daytime, while for the imbalance load at nighttime and daytime are 32.2% and 29.8%, respectively. The greater the loading of the transformer, the larger the imbalance loading of transformer becomes. The current in neutral transformer generated losses in the amount of 45 A and 2.4% at nighttime while for 33 A and 1.2% at daytime. The neutral current affects the values of losses that the higher it is, the bigger the losses appear in a transformer.

Keywords

Identification of over load, losses, neutral current, unbalanced load distribution transformer

References

ESDM. Statistik Ketenagalistrikan 2015. www.djk.esdm.go.id (Diakses 9 September 2017)

Sulistyowati. Audit Energi Untuk Efisiensi Pemakaian Energi Listrik. Jurnal ELTEK, Vol 10 Nomor 01, ISSN 1693-4024. Universitas Politeknik Negeri Malang. 2012.

Setiadji, Sentosa Julius, Tabrani Machmudsyah, dan Yanuar Isnanto. 2006. Pengaruh Ketidakseimbangan Beban Terhadap Arus Netral dan Losses pada Trafo Distribusi. Jurnal Teknik Elektro. Fakultas Teknologi Industri, Jurusan Teknik Elektro, Universitas Kristen Petra. Vol. 6, No. 1. 2006

Wijianto. 2017. Interview Pembebanan Transformator Distribusi. Duri: PT. PLN (Persero) Area Dumai Rayon Duri

Sarwo Pranoto, Sofyan , dan Nadya Natasya Rusli Penyeimbangan Beban pada Trafo Distribusi penyulang Akkarena di Unit Layanan Pelanggan Mattoanging, PT PLN (Persero), Prosiding Seminar Nasional Teknik Elektro dan Informatika (SNTEI) 2020, Makassar, 7 Oktober 2020

Simamora, Yoakim. Analisis Ketidakseimbangan Beban Transformator Distribusi Untuk Identifikasi Beban Lebih Dan Estimasi Rugi-Rugi Pada Jaringan Tegangan Rendah. Jurnal Singuda Ensikom Vol. 7 No. 3. Medan: Universitas Sumatera Utara. 2014.

Suwardana, Wayan. Studi Analisis Rugi-Rugi Daya pada Penghantar Netral Akibat Sistem Tidak Seimbang di Jaringan Distribusi Gardu KA 1495 Penyulang Citraland Menggunakan Simulasi Program ETAP 7.0. Jurnal Logic. Vol. 14. No. 3. Bali: Politeknik Negeri Bali. 2014.

Badaruddin. Pengaruh Ketidakseimbangan Beban Terhadap Arus Netral dan Losses pada Trafo Distribusi Proyek Rusunami Gading Icon. Jurnal Teknik Elektro. Jakarta: Universitas Mercubuana. 2012.

Suhadi, dkk. (Jilid 1). 2008. Teknik Distribusi Tenaga Listrik. Jakarta: Direktorat Pembinaan Sekolah Menengah Kejuruan.

Santoso, Budi. Optimalisasi Beban Pada Gardu Trafo Distribusi. Jurnal Teknik Elektro. Jakarta: Universitas Mercubuana. 2011.

Hakim, Insan. Analisa Ketidakseimbangan Beban Terhadap Rugi-Rugi Daya Pada Saluran Dan Transformator Distribusi 20kv (Studi Kasus Pada Penyulang Badai Di Gardu Induk Teluk Betung). Skripsi. Fakultas Teknik. Bandar Lampung: Universitas Lampung. 2016.

Grainger, John.J and William D. Stevenson, Jr. Electrical Enginering Series. 1994. Power System Analysis. McGRAW-Hill International. New York

William D., dan Stvensen, Jr. 1993. Analisis Sistem Tenaga Listrik. Jakarta: Erlangga.

Mukwanga, Member, IEE, and Abhishek. 2007. Reconfiguration And Load Balancing In The LV And MV Distribution Networks For Optimal Performance. Eskom, South Africa under TESP. Paper no. TPWRD-00418-2006.

Kongah, Dendi. Analisis Pembebanan Transformator Gardu Selatan Kampus Universitas Tadulako. Jurnal Mektrik Vol. 1 No. 1. ISSN 2356-4792. Palu: Universitas Tadulako. 2014.

Multa, Lesnanto. Modul Pelatihan ETAP. Universitas Gadjah Mada. 2013 (Diakses 6 Desember 2017)