Proceedings of the 1st International Seminar on Teacher Training and Education, ISTED 2021, 17-18 July 2021, Purwokerto, Indonesia

Research Article

Potential Design of Photovoltaics-Pumped Hydro Storage System at Ex-Paser Mine Holes in East Kalimantan

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  • @INPROCEEDINGS{10.4108/eai.17-7-2021.2312026,
        author={Ilham  Muhammad and Thabed Tholib Baladraf},
        title={Potential Design of Photovoltaics-Pumped Hydro Storage System at Ex-Paser Mine Holes in East Kalimantan},
        proceedings={Proceedings of the 1st International Seminar on Teacher Training and Education, ISTED 2021, 17-18 July 2021, Purwokerto, Indonesia},
        publisher={EAI},
        proceedings_a={ISTED},
        year={2021},
        month={10},
        keywords={carbon emision paser mine photovoltaics pumped hydro storage renewable energy},
        doi={10.4108/eai.17-7-2021.2312026}
    }
    
  • Ilham Muhammad
    Thabed Tholib Baladraf
    Year: 2021
    Potential Design of Photovoltaics-Pumped Hydro Storage System at Ex-Paser Mine Holes in East Kalimantan
    ISTED
    EAI
    DOI: 10.4108/eai.17-7-2021.2312026
Ilham Muhammad1,*, Thabed Tholib Baladraf2
  • 1: Geological Engineering Diponegoro University
  • 2: Agricultural Industsry University of Jember
*Contact email: hanifsyahdansidiq2@gmail.com

Abstract

East Kalimantan has potential for solar radiation of 4,453 kWh/m2/day which can be used to generate electricity using photovoltaics(PV). This utilization has challenges due to intermittent. East Kalimantan has a Paser Mine covering an area of 1,045,060.20 m2 and 2,566,678.20 m2 which can be intermittency solution used a Pumped Hydro Storage(PHS). This literature review aims to determine the potential design Photovoltaic-Pumped Hydro Storage based on configuration of the mine pit along with charge-discharge of the PHS, capacity of PV, and savings carbon emissions. The writing method uses Engineering Subject Headings include;Carbon Emision, Paser Mine, Photovoltaics, Pumped Hydro Storage, Renewable Energy thus obtaining 30 journals. It was found that the proposed system is capable of supplying electricity with a power of 68.034 MW for 5 hours/day. The system has 451,433 solar panels with a capacity of 115,508 MW on area of 731,321,737 m2. The carbon emission saved reaches 90.991%/day.