Analisis Efisiensi Konsumsi Daya Listrik di Bank X Surabaya
Abstract
Such advances in science and technology are growing more rapidly, making electrical energy a very important source of energy for human life. The importance of electrical energy in everyday life and in the development that is being carried out, demands a reliable and efficient electrical system in technical and cost aspects that can serve and meet human needs well. The method carried out uses observation techniques in the field to find out real data in the field, uses comparative techniques to compare two sample variables or two different times, and uses data collection techniques such as electricity bill accounts, single line charts and dena of the Bank X Surabaya building.From the calculation of the cost of electricity account bills at the Bank X Surabaya Building, which is 528,174 kWh / year with an initial IKE value of 396 kWh / Year is said to be wasteful in the use of electrical energy according to the Energy Consumption Intensity (ECI) standard, where the Energy Consumption Intensity (ECI) standard in Office Buildings is 240 kWh / year. So from the analysis carried out, it was found that Energy Saving Opportunities (ESO) in the lighting system obtained the results of reducing electrical energy consumption for one year, which was 37.4% with savings of 9,912 kWh / Year and in the air conditioning system obtained Saving electrical energy by 29% with savings of 8,565 kWh / Year. Electrical Energy Saving Opportunities in Bank X Surabaya Building are obtained by conducting energy audits from existing data sources in the building and calculating all power loads. After a detailed audit, it was found that Energy Saving Opportunities (ESO) were replaced by CFL lamps, TL Fluorescent into LED lamps. And for the air conditioning system by replacing Non-Inverter AC into Inverter AC.
Keywords
References
S. Oktavia Ginting, I. B. G. Manuaba, dan A. A. G. Maharta Pemayun, “Audit Energi Untuk Pencapaian Penghematan Penggunaan Energi Listrik Di Pt. Graha Sarana Duta Ii Denpasar,” J. SPEKTRUM, vol. 9, no. 1, hal. 27, 2022, doi: 10.24843/spektrum.2022.v09.i01.p4.
M. Program et al., “Studi manajemen energi listrik dan analisis peluang penghematan konsumsi energi listrik pada gedung pengadilan negeri denpasar,” vol. 9, no. 2, hal. 120–127, 2022.
ESDM, “Peraturan Menteri Energi Dan Sumber Daya Mineral Republik Indonesia Nomor 13 Tahun 2012 Tentang Penghematan Pemakaian Tenaga Listrik Dengan,” Ber. Negara Republik Indones. No. 556, 2012, vol. 151, no. 2, hal. 10-17 ENERGI DAN SUMBER DAYA MINERAL REPUBLIK INDO, 2012, [Daring]. Tersedia pada: https://peraturan.bpk.go.id/Home/Details/142561/permen-esdm-no-13-tahun-2012
C. Nissa, R. Novaria, dan K. Widianto, “PERAN PEMERINTAH DAERAH DALAM MENDUKUNG KEBIJAKAN PENGHEMATAN ENERGI (Studi Kasus: Dinas Lingkungan Hidup kota Surabaya),” 1945.
K. Naimah, “Analisa Konsumsi Energi Dan Sistem Pencahayaan Gedung C Institut Teknologi Sumatera,” J. Energy Electr. Eng., vol. 2, no. 2, hal. 1–5, 2021, doi: 10.37058/jeee.v2i2.2607.
N. Aprilia, N. Busaeri, dan A. U. Rahayu, “Analisis Peluang Efisiensi Melalui Konservasi Energi Pada Sistem Tata Udara Di Gedung Rumah Sakit Umum Nurhayati Garut,” vol. 04, no. 1, hal. 41–50, 2023.
D. S. Yansuri, D. E. Putra, dan R. Anggara, “Efisiensi Penggunaan Daya Listrik Di Hotel Carrissima Palembang The Efficiency of Electric Power at the Carrissima Hotel Palembang,” vol. XX, no. Xx, hal. 50–59.
Z. Abidin dan A. Churlillah, “Studi Analisis Audit Energi Untuk Konservasi Serta Efisiensi Listrik Gedung Unisla dengan Pendekatan Metode MCDM-Promethee,” vol. 3, no. 2, hal. 24–29, 2018.
J. T. Vol dan A. Bachri, “Di Universitas Islam Lamongan,” vol. 7, no. 2085, 2015.
Nadia, “Bunyi Hukum Kekekalan Energi, Rumus, Jenis, dan Contoh Penerapan nya,” kompas.com. https://www.kompas.com/skola/read/2022/11/28/180000269/bunyi-hukum-kekekalan-energi-rumus-jenis-dan-contoh-penerapannya?page=all (diakses 16 Juli 2023).
Lulu Lukyani, “Sejarah Penemuan Lampu,” kompas.com. https://www.kompas.com/sains/read/2021/09/10/100200723/sejarah-penemuan-lampu?page=all# (diakses 17 Juli 2023).
Dickson Kho, “Pengertian LED (Light Emitting Diode) dan Cara Kerjanya,” Teknik Elektronika, 2022. https://teknikelektronika.com/pengertian-led-light-emitting-diode-cara-kerja/ (diakses 16 Juli 2023).
E. Y. Kristanti, “2-1-1906: Asal-usul AC, Alat Pendingin Udara yang Mengubah Dunia,” Liputan 6.com.
Y. Basir, D. Fitria, dan R. Stardo, “Analisa Pengaruh Distorsi Harmonisa Pada Air Conditioner Sistem Inverter,” J. Desiminasi Teknol., vol. 9, no. 1, 2021, doi: 10.52333/destek.v9i1.697.
M. Y. Wijaya et al., “STUDI EKSPERIMENTAL AC SPLIT INVERTER R32 DAN R410A DENGAN REFRIGERAN R1270,” vol. 9, no. 1, hal. 149–158, 2021.
F. Mayrullah, “Analisis Pengaruh Perubahan Suhu Evaporator Terhadap Kinerja Kompresor Ac Inverter,” J. EEICT (Electric, Electron. Instrumentation, Control. Telecommun., vol. 3, no. 1, hal. 4–10, 2020, doi: 10.31602/eeict.v3i1.4534.
H. Maghfiroh, “Cara Kerja kWh meter,” Railway and Electrical. http://www.keretalistrik.com/2018/05/dunia-listrik-cara-kerja-kwh-meter.html (diakses 19 Juli 2018).
Presiden RI, “Peraturan Pemerintah Republik Indonesia no 70/ 2009 Konservasi Energi,” hal. 1–17, 2009.
Refbacks
- There are currently no refbacks.