Implementasi Metode Regresi Linier Berganda Untuk Proyeksi Kebutuhan Listrik Dalam Rangka Analisis Strategi Bisnis Di PT XYZ

Main Article Content

Fadhli Farsa

Abstract

Electrical energy requirements in the Industrial Estate should be fulfilled as a supporting industry in the region in order to develop. Therefore, one of PT XYZ's corporate strategies is to do demand forecasting. In this study, the authors will use multiple regression linear methods and compared with Sectoral quantitative forecasting methods from 2018 to 2022. The dependent variable used is the consumption of electrical energy in each sector (industry, business, housing and general) and for independent variables is the total of PT XYZ GDP, Dollar Exchange, PT XA Production, Number of Consumers, Cilegon GRDP, Growth Rate, Contract Power, Cilegon Export & Import, Indonesian Economic Growth. Based on forecasting results using multiple linear regression methods obtained in 2022 the need for electrical energy is 824,252 GWh down by 9.1% from 2017 and compared with the Sectoral quantitative forecasting method 946 GWh increased by 4.3% from 2017, while the average load with the new consumer plan in 2019 - 2021 then the total load in 2022 is 158.61 MW, while the final results from the SWOT analysis show that PT XYZ is in quadrant 1, the strategy is Progressive and in Porter's Five Force's it is found that the average value is 3 which means the industry is still attractive.

Downloads

Download data is not yet available.

Article Details

How to Cite
Farsa, F. (2019). Implementasi Metode Regresi Linier Berganda Untuk Proyeksi Kebutuhan Listrik Dalam Rangka Analisis Strategi Bisnis Di PT XYZ. KILAT, 8(2), 112-126. https://doi.org/10.33322/kilat.v8i2.560
Section
Articles

References

[1] D. Soekartawi, Teori Ekonomi Produksi Dengan Pokok Bahasan Analisis Fungsi Cobb-Douglas, Jakarta: CV Rajawali, 1990.
[2] D. Suswanto, Sistem Distribusi Tenaga Listrik, Padang, 2009.
[3] "Free Management Ebooks," [Online].
[4] BPS Kota Cilegon, "Kota Cilegon Dalam Angka 2007," BPS Kota Cilegon, Cilegon, 2007.
[5] BPS Kota Cilegon, "Kota Cilegon Dalam Angka 2006," BPS Kota Cilegon, Cilegon, 2006.
[6] BPS Kota Cilegon, "Kota Cilegon Dalam Angka 2008," BPS Kota Cilegon, Cilegon, 2008.
[7] BPS Kota Cilegon, "Kota Cilegon Dalam Angka 2009," BPS Kota Cilegon, Cilegon, 2009.
[8] BPS Kota Cilegon, "Kota Cilegon Dalam Angka 2010," BPS Kota Cilegon, Cilegon, 2010.
[9] BPS Kota Cilegon, "Kota Cilegon Dalam Angka 2011," BPS Kota Cilegon, Cilegon, 2011.
[10] BPS Kota Cilegon, "Kota Cilegon Dalam Angka 2012," BPS Kota Cilegon, Cilegon, 2012.
[11] BPS Kota Cilegon, "Kota Cilegon Dalam Angka 2013," BPS Kota Cilegon, Cilegon, 2013.
[12] BPS Kota Cilegon, "Kota Cilegon Dalam Angka 2014," BPS Kota Cilegon, Cilegon, 2014.
[13] BPS Kota Cilegon, "Kota Cilegon Dalam Angka 2015," BPS Kota Cilegon, Cilegon, 2015.
[14] BPS Kota Cilegon, "Kota Cilegon Dalam Angka 2016," BPS Kota Cilegon, Cilegon, 2016.
[15] BPS Kota Cilegon, "Kota Cilegon Dalam Angka 2017," BPS Kota Cilegon, Cilegon, 2017.
[16] A. H. R. D. R. Syafriwel, Analisis Peramalan Kebutuhan Energi Listrik Provinsi Sumatera Utara Menggunakan Metode Peramalan Kuantitatif Sektoral, 2015.
[17] A. R. Antonov, Prakiraan dan Analisa Kebutuhan Energi Listrik Provinsi Sumatera Barat Hingga Tahun 2024 Dengan Metode Analisis Regresi Linier Berganda, 2015.
[18] Bank Indonesia, "Infromasi Kurs : Bank Indonesia," 2018. [Online]. Available: https://www.bi.go.id/id/moneter/informasi-kurs/transaksi-bi/Default.aspx.
[19] L. Arsyad, Peramalan Bisnis, 2001.
[20] Krakatau Steel, "Annual Report 2006," Cilegon, 2006.
[21] Krakatau Steel, "Annual Report 2007," Cilegon, 2007.
[22] Krakatau Steel, "Annual Report 2008," Cilegon, 2008.
[23] Krakatau Steel, "Annual Report 2009," Cilegon, 2009.
[24] Krakatau Steel, "Annual Report 2010," Cilegon, 2010.
[25] Krakatau Steel, "Annual Report 2011," Cilegon, 2011.
[26] Krakatau Steel, "Annual Report 2012," Cilegon, 2012.
[27] Krakatau Steel, "Annual Report 2013," Cilegon, 2013.
[28] Krakatau Steel, "Annual Report 2014," Cilegon, 2014.
[29] Krakatau Steel, "Annual Report 2015," Cilegon, 2015.
[30] Krakatau Steel, "Annual Report 2016," Cilegon, 2016.
[31] Krakatau Steel, "Annual Report 2017," Cilegon, 2017.
[32] Sukmajati, S., & Hafidz, M. (2015). Perancangan Dan Analisis Pembangkit Listrik Tenaga Surya Kapasitas 10 Mw On Grid Di Yogyakarta. Energi & Kelistrikan, 7(1), 49-63. https://doi.org/10.33322/energi.v7i1.582
[33] Yogianto, A., Hajar, I., & Azzahra, S. (2018). Pemodelan Pembangkit Listrik Fotovoltaik Yang Terhubung Ke Jaringan. KILAT, 7(2), 201-209. https://doi.org/10.33322/kilat.v7i2.363
[34] Hasanah, A., Hariyati, R., & Qosim, M. (2019). Konsep Fotovoltaik Terintegrasi On Grid dengan Gedung STT-PLN. Energi & Kelistrikan, 11(1), 17 - 26. https://doi.org/10.33322/energi.v11i1.394

Most read articles by the same author(s)

Obs.: This plugin requires at least one statistics/report plugin to be enabled. If your statistics plugins provide more than one metric then please also select a main metric on the admin's site settings page and/or on the journal manager's settings pages.