Design of a 100 KW Kaplan Turbin A Case Study on a Small-Scale Hydropower System
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https://doi.org/10.37577/sainteks.v7i01.864Abstract
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References
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Cengel, Y. A., & Cimbala, J. M. (2006). Fluid Mechanics, Fundamental and Applications (S. Jeans (ed.); 1st ed.). McGraw Hill. https://www.ptonline.com/articles/how-to-get-better-mfi-results
Cho Khaing, C., Min Than, P., & Sein Mya, N. (2019). Design and Simulation with CFD of 10 kW Kaplan Turbine for Micro-Hydropower Plant (Runner). IRE Journals, 3(2), 116–121. https://www.irejournals.com/formatedpaper/1701488.pdf
Fajarisman, M. D., & Supriyono, T. (2018). Perancangan pembangkit listrik tenaga air [Fakultas Teknik Unpas]. http://repository.unpas.ac.id/39556/
Fauzi, F., & Hermanto, A. (2021). Analisis Kelayakan Ekonomi Dan Finansial Pembangkit Listrik Tenaga Air (PLTA) Dengan Menggunakan Software Visual Basic for Applications (VBA). Barometer, 6(2), 335–342. http://www.journal.unsika.ac.id
Jakfar, A., & Fatah, M. (2022). Modification of Kaplan Turbine with Variation of Guide Angle (Guide Vanes) to Generate Electric Power. MOTIVECTION: Journal of Mechanical, Electrical and Industrial Engineering, 4(3), 269–282.
Khalid Mohammed Ridha, W., Reza Kashyzadeh, K., & Ghorbani, S. (2023). Common Failures in Hydraulic Kaplan Turbine Blades and Practical Solutions. Materials, 16(9). https://doi.org/10.3390/ma16093303
Kusnadi, Mulyono, A., Pakki, G., & Gunarko, G. (2018). Rancang Bangun Dan Uji Performansi Turbin Air Jenis. Jurnal Teknik Mesin Universitas, 7(2), 207.
Mulqi, R. T. M., Supriyono, T., & Permana, M. S. (2019). Pengujian turbin air aksial [Fakultas Teknik Unpas]. https://repository.unpas.ac.id/43208/1/SKRIPSI RESTU TRIKA %28133030010%29.pdf
Natel. (2024). FishSafeTMï¸ engineering by Natel, manufacturing by trusted industry partners. Natelenergy. https://www.natelenergy.com/turbines
Oktoyoki, H., Safnizar, S., & Ansiska, P. (2023). Refleksi Kontribusi Pembangunan Lingkungan Hidup Dan Ketahanan Energi Dari Bengkulu Untuk Indonesia. Geoforum, 2(1), 50–59. https://doi.org/10.30598/geoforumvol2iss1pp50-59
Oo, M. M. (2019). Design of 50 kW Kaplan Turbine for Micro hydro Power Plant. Iconic Research And Engineering Journals, 3(2), 264–270. https://www.irejournals.com/formatedpaper/1701517.pdf
Rajab, A., Mahmuddin, M., & Habiba, S. (2024). Karakteristik Daya Turbin Kaplan dengan Variasi Jumlah Sudu Turbin. Innovative: Journal Of Social Science Research, 4(2), 9137–9149.
Rusdiansyah, D., & Supriyono, T. (2012). Perancangan turbin air dengan daya 100 W [Fakultas Teknik Unpas]. http://repository.unpas.ac.id/28803/
Subekti, R. A. (2015). Studi Kelayakan Pengembangan Pembangkit Listrik Tenaga Minihidro Di Desa Sukamaju Kabupaten Garut Jawa Barat. Jurnal Teknik Hidraulik, 6(2), 105–116.
Sundar. (2024). How to calculate the efficiency of draft tube. Exstrudesign. https://extrudesign.com/how-to-calculate-the-efficiency-of-draft-tube/
Supriyono, T. (2017). Optimum disain PLTS hybrid 10 MW dengan turbin gas. Prosiding SNMI, 11(ISBN 978-602-71459-7-9), TM-36.
Supriyono, T., Omar, G., Tamaldin, N., Soetikno, P., Sumartono, M. R., Romano, A., & Yamin, M. (2024). Performance comparison of monocrystalline and polycrystalline photovoltaic modules before testing with a cooling system. Cogent Engineering, 11(1). https://doi.org/10.1080/23311916.2024.2430426
Wahyudi, A., Mahmuddin, M., & Habiba, S. (2024). Peningkatan Daya Turbin Kaplan dengan Variasi Massa Turbin. Innovative: Journal Of Social Science Research, 4(2), 9150–9164.
Admin. (2024). Introduction to aaerospace flight vehicle. Embry-Riddle. https://eaglepubs.erau.edu/introductiontoaerospaceflightvehicles/chapter/airfoil-geometries/
Agarwal, T., Chaudhary, S., & Verma, S. (2017). Numerical and Experimental Analysis of Draft Tubes for Francis Turbine. Indian Journal of Science and Technology, 10(21), 1–11. https://doi.org/10.17485/ijst/2017/v10i23/115566
Cengel, Y. A., & Cimbala, J. M. (2006). Fluid Mechanics, Fundamental and Applications (S. Jeans (ed.); 1st ed.). McGraw Hill. https://www.ptonline.com/articles/how-to-get-better-mfi-results
Cho Khaing, C., Min Than, P., & Sein Mya, N. (2019). Design and Simulation with CFD of 10 kW Kaplan Turbine for Micro-Hydropower Plant (Runner). IRE Journals, 3(2), 116–121. https://www.irejournals.com/formatedpaper/1701488.pdf
Fajarisman, M. D., & Supriyono, T. (2018). Perancangan pembangkit listrik tenaga air [Fakultas Teknik Unpas]. http://repository.unpas.ac.id/39556/
Fauzi, F., & Hermanto, A. (2021). Analisis Kelayakan Ekonomi Dan Finansial Pembangkit Listrik Tenaga Air (PLTA) Dengan Menggunakan Software Visual Basic for Applications (VBA). Barometer, 6(2), 335–342. http://www.journal.unsika.ac.id
Jakfar, A., & Fatah, M. (2022). Modification of Kaplan Turbine with Variation of Guide Angle (Guide Vanes) to Generate Electric Power. MOTIVECTION: Journal of Mechanical, Electrical and Industrial Engineering, 4(3), 269–282.
Khalid Mohammed Ridha, W., Reza Kashyzadeh, K., & Ghorbani, S. (2023). Common Failures in Hydraulic Kaplan Turbine Blades and Practical Solutions. Materials, 16(9). https://doi.org/10.3390/ma16093303
Kusnadi, Mulyono, A., Pakki, G., & Gunarko, G. (2018). Rancang Bangun Dan Uji Performansi Turbin Air Jenis. Jurnal Teknik Mesin Universitas, 7(2), 207.
Mulqi, R. T. M., Supriyono, T., & Permana, M. S. (2019). Pengujian turbin air aksial [Fakultas Teknik Unpas]. https://repository.unpas.ac.id/43208/1/SKRIPSI RESTU TRIKA %28133030010%29.pdf
Natel. (2024). FishSafeTMï¸ engineering by Natel, manufacturing by trusted industry partners. Natelenergy. https://www.natelenergy.com/turbines
Oktoyoki, H., Safnizar, S., & Ansiska, P. (2023). Refleksi Kontribusi Pembangunan Lingkungan Hidup Dan Ketahanan Energi Dari Bengkulu Untuk Indonesia. Geoforum, 2(1), 50–59. https://doi.org/10.30598/geoforumvol2iss1pp50-59
Oo, M. M. (2019). Design of 50 kW Kaplan Turbine for Micro hydro Power Plant. Iconic Research And Engineering Journals, 3(2), 264–270. https://www.irejournals.com/formatedpaper/1701517.pdf
Rajab, A., Mahmuddin, M., & Habiba, S. (2024). Karakteristik Daya Turbin Kaplan dengan Variasi Jumlah Sudu Turbin. Innovative: Journal Of Social Science Research, 4(2), 9137–9149.
Rusdiansyah, D., & Supriyono, T. (2012). Perancangan turbin air dengan daya 100 W [Fakultas Teknik Unpas]. http://repository.unpas.ac.id/28803/
Subekti, R. A. (2015). Studi Kelayakan Pengembangan Pembangkit Listrik Tenaga Minihidro Di Desa Sukamaju Kabupaten Garut Jawa Barat. Jurnal Teknik Hidraulik, 6(2), 105–116.
Sundar. (2024). How to calculate the efficiency of draft tube. Exstrudesign. https://extrudesign.com/how-to-calculate-the-efficiency-of-draft-tube/
Supriyono, T. (2017). Optimum disain PLTS hybrid 10 MW dengan turbin gas. Prosiding SNMI, 11(ISBN 978-602-71459-7-9), TM-36.
Supriyono, T., Omar, G., Tamaldin, N., Soetikno, P., Sumartono, M. R., Romano, A., & Yamin, M. (2024). Performance comparison of monocrystalline and polycrystalline photovoltaic modules before testing with a cooling system. Cogent Engineering, 11(1). https://doi.org/10.1080/23311916.2024.2430426
Wahyudi, A., Mahmuddin, M., & Habiba, S. (2024). Peningkatan Daya Turbin Kaplan dengan Variasi Massa Turbin. Innovative: Journal Of Social Science Research, 4(2), 9150–9164.
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Published
2025-03-26
How to Cite
Saidiman, M., Dewi, R. K., & Supriyono, T. (2025). Design of a 100 KW Kaplan Turbin A Case Study on a Small-Scale Hydropower System. SAINTEKS : Jurnal Sain Dan Teknik, 7(01), 23–39. https://doi.org/10.37577/sainteks.v7i01.864
