Susut Tegangan pada Penghantar ACCC di Saluran Transmisi 150 kV di PT. PLN (Persero) Unit Pelayanan Transmisi Pekanbaru
Transmisi
Abstract
Power transmission network system plays an important role in distributing power, especially in 150 kV power transmission lines. In 2013, the was a change in term of conductor type in in 150 kV transmission lines of Garuda Sakti – Balai Pungut, from ACSR to ACCC, because of the growing number of power plants in Riau and power distribution in every conductor supplying higher current, when given higher current, ACCC conductor is capable of transmitting power twice the ACSR conductor. The single line diagram of UPT Pekanbaru, data from power station (GI) Garuda Sakti – Balai Pungut, conductor data and load data are all data necessary for the study and calculation on ACCC conductor. The result shows that the amount of voltage drop power losses of ACCC conductor is 5.098 kV, while the power loss is 479,187 with the sagging value is 6.950 m, compared to the old conductor, the ACSR type, with the voltage drop of 7.517 kV, power loss of 828.863 kW, and the sagging value of 9.010 m, all measured in 150 kV power transmission lines of PT. PLN PERSERO UPT Pekanbaru.
Downloads
References
C. Cekdin and T. Barlian, Transmisi Daya Listrik. Yogyakarta: Andi, 2013.
T. S. Hutauruk, Transmisi Daya Listrik. Jakarta: Erlangga, 1985.
A. Arismunandar and S. Kuwahara, Buku Pegangan Teknik Tenaga Listrik, Jilid II Saluran Transmisi. Jakarta: Pradnya Paramita, 2004.
T. Gonen, Modern Power System Analysis, 2nd ed. Boca Raton: Taylor & Francis, 2013.
J. J. Grainer and W. D. Stevenson Jr, Power System Analysis, 5th ed. New York: McGraw-Hill, 1994.
P. Gevorkian, Large-Scale Solar Power Systems: Construction and Economics. New York: Cambridge University Press, 2012.
J. E. Mack, T. M. Shoemaker, and J. E. Mack, The Lineman’s and Cableman’s Handbook, 13th ed. New York: McGraw-Hill Education, 2017.
I. Gunawan, H. Eteruddin, and U. Situmeang, “Analisis Transien Pada Sistem Transmisi 150 kV Riau Setelah Beroperasinya PLTU Tenayan Raya Menggunakan Powerworld Simulator,” Jurnal Teknik, vol. 14, no. 2, pp. 223–231, 2020.
H. Eteruddin, D. Setiawan, and P. P. P. Hutagalung, “Evaluasi Jaringan Tegangan Menengah 20 kV Pada Feeder 7 Peranap PT. PLN Persero Rayon Taluk Kuantan,” in Seminar Nasional Pakar, 2020, pp. 1.4.1-1.4.6.
H. Asman, H. Eteruddin, and A. Arlenny, “Analisis Proteksi Rele Jarak Pada Saluran Transmisi 150 kV Garuda Sakti – Pasir Putih Menggunakan PSCAD”, SainETIn, vol. 2, no. 1, pp. 27-36, 2018.
A. Arismunandar, Teknik Tegangan Tinggi. Jakarta: Pradnya Paramita, 1990.
Y. Chen, Engineering Energy Aluminum Conductor Composite Core (ACCC) and Its Application. London: Elsevier Science, 2019.
T. Gonen, Electrical Power Transmission System Engineering: Analysis and Design, 3rd ed. Sacramento: Taylor & Francis, 2014.
T. A. Short, Electric Power Distribution Handbook, 2nd ed. Boca Raton: CRC Press, 2014.
B. Wareing, Wood Pole Overhead Lines. London: IET, 2008.
L. L. Grigsby, Electric Power Generation, Transmission, and Distribution, 3rd ed. CRC Press, 2012.
