Analysis of the Utilization of Putri Cempo Landfill Waste for Power Plants and Their Effects on the Surakarta Electric Power Distribution Network

Slamet Suripto, Rahmat Adiprasetya Al Hasibi, Rama Okta Wiyagi, Sanupal Sanupal, Yessi Jusman, Didik Aribowo

Abstract


Growth in electric energy demand, domination of use of fossil fuels, and waste problems are fundamental to this research. The purpose of this research is to find out the electrical energy potential of the Putri Cempo Landfill waste, Surakarta. The potential of electrical energy is designed for waste power plant (WPP). Penetration of WPP as a Distributed Generation (DG) to the 20 kV electrical distribution network is analyzed to determine its effect on the growth of demand for electricity, power flow, and the index of the (SAIFI and SAIDI). This research applies the technology Sanitary Landfill to produce landfill gas (LFG) as the primary energy of WPP. In calculating the growth predictions of electricity usage in the industrial, household, public, and commercial sectors from 2017 to 2025 in APJ Surakarta, the DKL Method 3.01 is applied. ETAP 12.6 was applied to analyze the power flow in the form of power losses and voltage losses and the Section method to calculate the reliability index (SAIFI, SAIDI) before and after penetration of WPP in PLR 01 and GDO 04 of Manahan Substation, Surakarta. The results showed that Trash from 5 Regencies and Cities, WPP was able to generate a maximum power of 10.1 MW. During peak load, WPP is able to reduce electricity demand of Substation for 0.920% in 2019, 0.879% in 2020, 0.838% in 2021, 0.799% in 2022, 0.760% in 2023, 0.723% in 2024, and 0.686% in 2025. The drop voltage at the tip of the feeder (No Substation Transformer BSP01005) has improved 29.4%, power losses have improved 25%, SAIFI has improved 61.36%, and SAIDI has improved 29%, after WPP penetration.

Keywords


Sanitary Landfill, WPP, DKL 3.01, Section Technique, ETAP

Full Text:

PDF

References


Allen Short, T. 2014. Electric Power System Distribution Handbook Second Edition. USA: CRC Press.

IEEE Std. 1366-2012. 2012. IEEE Guide for Electric Power Distribution Reliability Indices. USA.

A. Samir, Elsagheer Mohamed, "Smart Street Lighting Control and Monitoring System for Electrical Power Saving by Using VANET", Int. J. Communications Network and System Sciences, vol. 6, pp. 351-360, 2013.

E. Damanhuri and T. Padmi, Diktat Kuliah Pengelolaan Sampah TL-3104. Bandung: Program Studi Teknik Lingkungan ITB.

O. E. Indonesia, “Pengembangan Energi untuk Mendukung Industri Hijau,” presented at the Delivered at the National Technology Congress, 2016.

V. Vebrianto, “Studi Pengembangan serta Penyusunan Rencana Energi dan Kelistrikan Daerah dengan Memanfaatkan Potensi Energi Daerah Di Kabupaten Lamongan Jawa Timur,” Skripsi, Institut Teknologi Sepuluh Nopember, Surabaya, 2009.

P. D. Seribu, “Pengaruh Distributed Generation terhadap Keandalan Sistem Distribusi,” Thesis, Universitas Gadjah Mada, Yogyakarta.

I. M. G. Nusaman and S. H. Hartati, “Analisis Pengaruh Interkoneksi Distributed Generation (WPP Suwung) Terhadap Rugi-Rugi Daya dan Keandalan pada Penyulang Serangan,” Jurnal Teknik Elektro, vol. 14(2), pp. 27–33.




DOI: https://doi.org/10.18196/jet.3463

Refbacks

  • There are currently no refbacks.


Copyright (c) 2019 Journal of Electrical Technology UMY


 

Office Address:

Journal of Electrical Technology UMY

Department of Electrical Engineering, Universitas Muhammadiyah Yogyakarta

Jl. Brawijaya, Kasihan, Bantul, Daerah Istimewa Yogyakarta

Phone/Fax: +62274-387656/ +62274-387646,

E-mail: jet@umy.university

Creative Commons License
Journal of Electrical Technology UMY is licensed under a Creative Commons Attribution-ShareAlike 4.0 International License. situs slot gacor server kamboja slot