DOI : https://doi.org/10.62527/ijasce.4.2.82

Analysis of Reservoir Water Discharge at Solar Power Plant Tanjung Raja Village as a Basis for Pico Hydro Power Plant Planning in Paddy-Field Area

Yogi Dinata (1), Indriyani Indriyani (2), Tresna Dewi (3)
(1) Applied Master of Renewable Energy Engineering, Politeknik Negeri Sriwijaya, Jl Srijaya Negara Bukit Besar, Palembang, 30137, Indonesia
(2) Civil Engineering Department, Politeknik Negeri Sriwijaya, Jl Srijaya Negara Bukit Besar, Palembang, 30137, Indonesia
(3) Electrical Engineering Department, Politeknik Negeri Sriwijaya, Jl Srijaya Negara Bukit Besar, Palembang, 30137, Indonesia
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How to cite (IJASEIT) :
Dinata, Y., Indriyani, I., & Dewi, T. (2022). Analysis of Reservoir Water Discharge at Solar Power Plant Tanjung Raja Village as a Basis for Pico Hydro Power Plant Planning in Paddy-Field Area. International Journal of Advanced Science Computing and Engineering, 4(2), 76–87. https://doi.org/10.62527/ijasce.4.2.82
Citation Format :
Energy is an important aspect of life as a whole. The fossil-based energy sources have dwindled over time, in line with population growth and economic growth. One approach to meeting the energy demand is to use renewable energy. According to Presidential Regulation Number 22 of 2017 on National Energy General Plan (RUEN) targets, the share of New and Renewable Energy in total national energy in 2025 will be 25%. The construction of a Hydro Power Plant is expected to reach 3.000 MW by 2025. According to NREEC statistical data from 2016, the potential for constructing a Hydro Power Plant in South Sumatera is approximately 448 MW. This paper investigates the possibility and potential of building Hydro Power Plant from the reservoir of the irrigation water system generated by a Solar Power Plant in Tanjung Raja Village, Muara Enim District, South Sumatra. The water discharge magnitude is measured, and the potential of electricity generated from the discharge is presented. The experimental data shows that water discharge from the reservoir can generate maximum electricity of  806,6488 watts with a discharge rate of 0.0653 m3/s, and power is 36,7245 watts, with a discharge of 0,0030 m3/s. The average electricity potential is approximately 375.6782 watts, with a discharge average of 0.0304 m3/s. Therefore, the experimental data shows the possibility of hybridizing the Solar Power Plant with Hydro Power Plant, which will be beneficial for the residential area in Tanjung Raja Village, Muara Enim.

A. T. Wardhana, A. Taqwa, and T. Dewi, “Design of Mini Horizontal Wind Turbine for Low Wind Speed Area,†in Proceeding of 2nd Forum in Research, Science, and Technology 30-31 October 2018, Palembang, Indonesia, Journal of Physics: Conference Series, Vol. 1167, 2019.

R. B. Yuliandi, T. Dewi, and Rusdianasari, “Comparison of Blade Dimension Design of a Vertical Wind Turbine Applied in Low Wind Speed,†in Proceeding of The 1st Sriwijaya International Conference on Environmental Issues 2018 (1st SRICOENV 2018), E3S Web of Conferences EDP Sciences, Vol. 68, 2018.

Dewi, T., Risma, P., Oktarina, Y., Roseno, M. T, Yudha, H. M., Handayani, A. D., and Wijanarko, Y., A Survey on Solar Cell; The Role of Solar Cell in Robotics and Robotic Application in Solar Cell industry in Proceeding of Forum in Research, Science, and Technology (FIRST), 2016.

T. Dewi, P. Risma, and Y. Oktarina, “A Review of Factors Affecting the Efficiency and Output of a PV system Applied in Tropical Climate,†presented at 2018 International Conference on Science, Infrastructure Technology and Regional Development, the IOP Conference Series: Earth and Environmental Science, Vol. 258, p. 012039, 2018.

M. H. Yudha, T. Dewi, P. Risma, and Y. Oktarina, “Life Cycle Analysis for the Feasibility of Photovoltaic System Application in Indonesia,†in Proceeding International Conference on Science, Infrastructure Technology and Regional Development (ICoSITeR) 2017 â€Energy Security for Enhancing National Competitiveness†25-26 August 2017, South Lampung, Indonesia, IOP Conference Series: Earth and Environmental Science, Vol. 124, 012005, 2017.

Edward, T. Dewi, and Rusdianasari, “The effectiveness of Solar Tracker Use on Solar Panels to The Output of The Generated Electricity Power,†presented in 6th International Conference on Sustainable Agriculture, Food and Energy 18-21 October 2018, Manila, The Philippines, IOP Conference Series: Earth and Environmental Science, Vol. 347, No. 1, p. 012130, 2019.

B. R. D. M. Hamdi, T. Dewi, and Rusdianasari, â€Performance Comparison of 3 Kwp Solar Panels Between Fixed and Sun Tracking in Palembang-Indonesia,†presented in 6th International Conference on Sustainable Agriculture, Food and Energy 18-21 October 2018, Manila, The Philippines, IOP Conference Series: Earth and Environmental Science, Vol. 347, No. 1, p. 012131, 2019.

I. N. Zhafarina, T. Dewi, and Rusdianasari, â€Analysis of Maximum Power Reduction Efficiency of Photovoltaic System at PT. Pertamina (Persero) RU III Plaju,†VOLT: Jurnal Ilmiah Pendidikan Teknik Elektro, Vol. 3, No. 1, pp. 19-25, 2018.

I. Arissetyadhi, T. Dewi, and RD. Kusumanto, “Experimental Study on The Effect of Arches Setting on Semi-Flexible Monocrystalline Solar Panels,†Kinetik: Game Technology, Information System, Computer Network, Computing, Electronics, and Control KINETIK, Vol. 5, No. 2, 2020.

H. A. Harahap, T. Dewi, and Rusdianasari, “Automatic Cooling System for Efficiency and Output Enhancement of a PV System Application in Palembang, Indonesia,†presented in 2nd Forum in Research, Science, and Technology, Journal of Physics: Conf. Vol. 1167, p. 012027, 2018.

A. Sasmanto, T. Dewi, and Rusdianasari, “Eligibility Study on Floating Solar Panel Installation over Brackish Water in Sungsang, South Sumatra,†EMITTER International Journal of Engineering Technology, Vol. 8, No. 1, 2020.

B. Junianto, T. Dewi, and C. R. Sitompul, “Development and Feasibility Analysis of Floating Solar Panel Application in Palembang, South Sumatra,†presented in 3nd Forum in Research, Science, and Technology Palembang, Indonesia, Journal of Physics: Conf. Series 2020.

F. Setiawan, T. Dewi, and S. Yusi, “Sea Salt Deposition Effect on Output and Efficiency Losses of the Photovoltaic System; a case study in Palembang, Indonesia,†presented in 2nd Forum in Research, Science, and Technology, Journal of Physics: Conf. Vol. 1167, p. 012027, 2018.

H. Budiman, A. Taqwa, RD Kusumanto, and T. Dewi, “Synchronization and Application of IoT for on Grid Hybrid PV-Wind System,†in Proceeding of 2018 International Conference on Applied Science and Technology (iCAST) IEEE, pp. 617-621, 2018.

T. Dewi, P. Risma, Y. Oktarina, A. Taqwa, Rusdiansari, and H. Renaldi, “Experimental Analysis on Solar Powered Mobile Robot as the Prototype for Environmentally Friendly Automated Transportation,†presented in International Conference on Applied Science and Technology (iCAST on Engineering Science) Bali, Indonesia, of Physics: Conference Series, Vol. 1450.

M. A. Setiarso, W. Widiyanto, dan S. N. Purnomo, “Potensi Tenaga Listrik Dan Penggunaan Turbin Ulir Untuk Pembangkit Skala Kecil Di Saluran Irigasi Banjarcahyana,†Dinamika Rekayasa, Vol. 13, No. 1, Hal. : 18-27, 2017.

I. G. N. Saputra, L. Jasa, dan I. W. A. Wijaya, “Pengaruh Jumlah Sudu Pada Prototype PLTMH Dengan Menggunakan Turbin Pelton Terhadap Efisiensi Yang Dihasilkan,†Jurnal SPEKTRUM, Vol. 7, No. 4, pp. 161-172, 2020.

A. Syarif, Y. Bow, K. A. Ridwan, D. Karlini, dan S. Wulandari, “Analisis Unjuk Kerja Prototipe Pembangkit Listrik Tenaga Mikrohidro Turbin Pelton Sumber Daya Head Potensial,†Jurnal Kinetika, Politeknik Negeri Sriwijaya, Vol. 10, No. 02, pp. 1- 8, 2019.

M. Suyanto dan Subandi, “Memanfaatkan Irigasi Sebagai Sumber Energi Listrik Mikrohidro Di Singosaren Wukirsari Bantul Jogjakarta,†Dharma: Jurnal Pengabdian Masyarakat, Vol. 1, No. 2, Hal. : 56-64, Tahun 2020.

B. D. Prabowo, A. Faidil, N. R. Alham, I. R. S. Siregar, dan M. Jurdun NA, “Pengukuran Arus Dan Tegangan Pada Prototype Pembangkit Listrik Tenaga Mikrohidro (PLTMH) Berdasarkan Debit Dan Kecepatan Air,†J-Eltrik, Vol. 2, No. 1, pp. 20-27, 2020.

F. Aspriadi, M. Sulaiman, dan W. Wilopo, “Perancangan Energi Pembangkit Listrik Tenaga Mikrohidro Di Kawasan Perkebunan Teh PT. Pagilaran Batang, Jawa Tengah,†J.Oto.Ktrl.Inst (J.Auto.Ctrl.Inst), Vol. 11, pp. 37-48, 2019.

Indrayani, and Ramadhani RC, “Design of Microhydro Power Plant Prototype Based on Kelekar River Flow Discharge,†2021 IOP Conf. Ser.: Earth Environ. Sci. 832 012065, 2021.

R. C. Ramadhani, M. Yerizam, and Indrayani, “Preliminary Design Of Micro Hydro Power Plant In Kelekar River, Ogan Ilir District,†Technology Reports of Kansai University, Vol. 62, No. 4, pp. 1837-1844, 2020.

S. E. Lesmana, L. Kalsum, and T. Widagdo, "A Micro Hydro Pelton Turbine Prototype (Review of the Effect of Water Debitand Nozzle Angle to Rotation and Pelton Turbine Power)," J. Phys.: Conf. Ser. 1167 012023, 2019.

Firmansyah, A. Syarif, Z. Muchtar, and Rusdianasari, "Study of the Supply Water Discharge at the Micro Hydro Power Installation," IOP Conf. Ser.: Earth Environ. Sci. 709 012002, 2021.

R. C. Ramadhani, M. Yerizam, and Indrayani, "Analysis of Ogan Ilir Regency’s Kelekar River Runoff Discharge in Micro Hydro Power Plant (PLMTH) Planning," Vol. 5, No. 1, 2020.

R. Syahputra and I. Soesanti, "Renewable Energy Systems Based on Micro-hydro and Solar Photovoltaic for Rural Areas: a Case Study in Yogyakarta, Indonesia," Energy Reports, Vol. 7, 2021.

R. Marliansyah, D. N. Putri, A. Khootama, and H. Hermansyah, "Optimization Potential Analysis of Micro-hydro Power Plant (MHPP) From River With Low Head," Energy Procedia, Vol. 153, pp. 74-79, 2018.

Direktorat Jendral Energi Baru, Terbarukan dan Konservasi Energi, Statistik EBTKE, 2016.

K. R. Naik, B. Rajpathak, A.Mitra, and M. L. Kolhe, "Assessment of Energy Management Technique for Achieving the Sustainable Voltage Level During Grid Outage of Hydro Generator Interfaced Dc Micro-grid," Sustainable Energy Technologies and Assessments, Vol. 46, 2021.

N. Sanampudi and P. Kanakasabapathy, "Integrated Voltage Control and Frequency Regulation for Stand-alone Micro-hydro Power Plant," Materials Today: Proceedings, Vol. 46, Part 10, pp. 5027-5031, 2021.

T. Imjai, K. Thinsurat, P. Ditthakit, W. Wipulanusat, M. Setkit, and R. Garcia, “Performance Study of an Integrated Solar Water Supply System for Isolated Agricultural Areas in Thailand: A Case-Study of the Royal Initiative Project,†Water, Vol. 12, p. 2438, 2020. doi:10.3390/w12092438.

V. S. Korpale, D. H. Kokate, and S. P. Deshmukh, “Performance Assessment of Solar Agricultural Water Pumping System,†Energy Procedia, Vol. 90, pp. 518-524, 2016. https://doi.org/10.1016/j.egypro.2016.11.219.

M. Elrefai, R. A. Hamdy, A. ElZawawi, and M. S. Hamad, “Design and Performance Evaluation of a Solar Water Pumping System: a Case Study,†2016 Eighteenth International Middle East Power Systems Conference (MEPCON), Cairo, 2016, pp. 914-920, doi: 10.1109/MEPCON.2016.7837005.

A. Ba, A. Aroudam, O. E. Chighali, O. Hamdoun, and M. L. Mohamed, “Performance Optimization of the PV Pumping System,†presented in 11th International Conference Interdisciplinarity in Engineering, INTER-ENG 2017, 5-6 October 2017, Tirgu-Mures, Romania, Procedia Manufacturing, Vol. 22, pp. 788-795, 2018. https://doi.org/10.1016/j.promfg.2018.03.112M.

M. Widyartono, A. C. Hermawan, dan S. I. Haryudo, “Kajian Kemiringan Blade Dan Head Turbin Archimedes Screw Terhadap Daya Keluaran Generator AC 1 Phase 3 kW,†Jurnal Teknik Elektro, Volume 10, Nomor 01, pp. 219-228, 2021.

I. P. W. I. Wedanta, W. A. Wijaya, dan L. Jasa, “Analisa Pengaruh Kemiringan Head Dan Variasi Sudut Blade Turbin Ulir Terhadap Kinerja PLTMH,†Jurnal SPEKTRUM, Vol. 8, No. 1, pp. 73-84, 2021.

A. Havendri, Y. Hizhar, dan O. S. Perdana, “Kaji Eksperimental Pengaruh Debit Dan Kemiringan Poros Terhadap Daya Mekanik Prototype Turbin Ulir Tipe AH-01 dan AH-02,†Jurnal Sistem Mekanik Dan Termal, METAL, Vol. 5, No. 1, pp. 17-22, 2021.