Penggunaan Sistem Informasi Geografi Untuk Mencari Lokasi yang Tepat Sebagai Penyimpanan Energi Hydro Terpompa

  • Taufiq Ejaz Ahmad Universitas Pendidikan Indonesia


Energy is a basic human need. All facilities that support the operation of renewable energy need a strategic site that is adequate and meets all aspects required, including geographical aspects. The difference in geographical character needs is based on the different energy conversion capabilities of each energy generation unit, this requires the developer to decide a strategic location and can support the greatest energy conversion. To make it easier to figure the location based on certain geographical criteria and as decision support can optimize the use of Geographic Information Systems. A study has been carried out in South Australia to develop a set of Geographic Information System algorithms to find the right location for the construction of PHES. The aim of the reviewer is to learn how the Geographic Information System algorithm can be applied in the search mechanism automatically and how it is alternative. In order to get the implementation aspects of the method reviewed.


Aini, A. (2007). Sistem Informasi Geografis Pengertian dan Aplikasinya. Diakses Dari http://stmik. amikom. ac. id/[Diakses 24 Maret 2013].

Azadeh, A., Ghaderi, S. F., & Nasrollahi, M. R. (2011). Location optimization of wind plants in Iran by an integrated hierarchical Data Envelopment Analysis. Renewable Energy, 36(5), 1621-1631.

Barbour, E., Wilson, I. G., Radcliffe, J., Ding, Y., & Li, Y. (2016). A review of pumped hydro energy storage development in significant international electricity markets. Renewable and Sustainable Energy Reviews, 61, 421-432.

Connolly, D., MacLaughlin, S., & Leahy, M. (2010). Development of a computer program to locate potential sites for pumped hydroelectric energy storage. Energy, 35(1), 375-381.

Council, A. C. (2017). Clean Energy Australia Report 2016.

Dams, R. F. (2004). General Design and Construction Considerations for Earth and.
Guittet, M., Capezzali, M., Gaudard, L., Romerio, F., Vuille, F., & Avellan, F. (2016). Study of the drivers and asset management of pumped-storage power plants historical and geographical perspective. Energy, 111, 560-579.

Kholiq, I. (2015). Analisis Pemanfaatan Sumber Daya Energi Alternatif Sebagai Energi Terbarukan untuk Mendukung Subtitusi BBM. Jurnal Iptek, 19(2), 75-91.
Lubis, A. (2007). Energi terbarukan dalam pembangunan berkelanjutan. Jurnal Teknologi Lingkungan, 8(2).

Muhtar, G. A. (2019). Lokasi Pembangunan Pembangkit Listrik Tenaga Bayu Menggunakan Metode SIG di Provinsi Gorontalo. Jurnal Azimut, 2(2), 155-164.

Nugraha, Y. K., Nugraha, A. L., & Wijaya, A. P. (2014). Pemanfaatan Sig Untuk Menentukan Lokasi Potensial Pengembangan Kawasan Perumahan Dan Permukiman (Studi Kasus Kabupaten Boyolali). Jurnal Geodesi Undip, 3(4), 50-59.

Operator, A. E. (2017). System event report. South Australia.

Wänn, A., Leahy, P., Reidy, M., Doyle, S., Dalton, H., & Barry, P. (2012). Facilitating energy storage to allow high penetration of intermittent renewable energy: Environmental performance of existing energy storage installations. Deliverable D, 3.

Yong, D. (2006). Plant location selection based on fuzzy TOPSIS. The International Journal of Advanced Manufacturing Technology, 28(7-8), 839-8
How to Cite
AHMAD, Taufiq Ejaz. Penggunaan Sistem Informasi Geografi Untuk Mencari Lokasi yang Tepat Sebagai Penyimpanan Energi Hydro Terpompa. Jurnal Georafflesia: Artikel Ilmiah Pendidikan Geografi, [S.l.], v. 5, n. 1, p. 68-79, june 2020. ISSN 2615-4781. Available at: <>. Date accessed: 27 oct. 2020. doi:

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.