DEVELOPMENT OF A PROTOTYPE OF A HYDROELECTRIC POWER PLANT BASED ON BOYLE'S FLASK AS A SCIENCE TEACHING MATERIAL
PENGEMBANGAN PROTOTIPE PEMBANGKIT LISTRIK TENAGA AIR BERBASIS BOYLE’S FLASK SEBAGAI BAHAN AJAR IPA
Authors
wiji aziiz hari mukti , kurniawan , Esti Wahyu KurniawatiPublished:
2024-11-18Versions:
- 2024-11-18 (2)
- 2024-11-18 (1)
Issue:
Vol. 5 No. 4 (2024): NovemberArticles
Abstract
Abstract: Boyle's flask is an innovation by scientist Robert Boyle which utilizes gravity and water which can move continuously without external energy, but the results of his research have not yet been used to become a prototype for a power plant even though in theory it already meets the criteria to become a prototype for a power plant. This research aims to determine the design and development of a Boyle's flask-based hydroelectric generator prototype as science teaching material and to measure the amount of output power produced from the Boyle's flask-based hydroelectric generator prototype. The method used is development using the ADDIE model. The results of this research are: the design of a Boyle's flask-based hydroelectric power plant prototype as science teaching material and the magnitude of the electric current produced from the Boyle's flask-based hydroelectric power plant prototype and an analysis of the relationship between the size of the Boyle's flask-based hydroelectric power plant prototype. flask with a strong electric current that is produced cannot be done because liquid substances, namely water and salt water, cannot flow endlessly even though there have been changes in several variables (using 2.5 inch and 0.25 inch hoses, using water and salt water which have different densities).References
Abdilah, Hayatining Suci. 2015. “Pengembangan Miniatur Pembangkit Listrik Tenaga Air Sebagai Media Pembelajaran Fisika Sekolah Snf2015-Ii-77 Snf2015-Ii-78.” IV: 77–80.
Aida Syarif, Yohandri Bow1 , KA Ridwan1, Delvi Karlini, Septiani Wulandari. 2019. “Analisis Unjuk Kerja Prototipe Pembangkit Listrik Tenaga Mikrohidro Turbin Pelton Sumber Daya Head Potensial.” Jurnal Kinetik 10(02): 1–8.
Albet Maydiantoro. 2019. “Model-Model Penelitian Pengembangan (Research and Development).” Jurnal Metode Penelitian (10): 3.
Bagher, Askari Mohammad, Mirzaei Vahid, Mirhabibi Mohsen, and Dehghani Parvin. 2015. “Hydroelectric Energy Advantages and Disadvantages.” American Journal of Energy Science 2(2): 17–20.
Bengkulu, Rakyat. 2022. “Badai Di Bengkulu.” Rakyat Bengkulu.
Boedoyo, Mohamad Sidik. 2013. “Potensi Dan Peranan Plts Sebagai Energi Alternatif Masa Depan Di Indonesia.” Jurnal Sains dan Teknologi Indonesia 14(2): 146–52.
Dadi, I Ketut, I Wayan Redhana, and Putu Prima Juniartina. 2019. “Analisis Kebutuhan Untuk Pengembangan Media Pembelajaran Ipa Berbasis Mind Mapping.” Jurnal Pendidikan dan Pembelajaran Sains Indonesia (JPPSI) 2(2): 70.
Devira Ramady, Givy et al. 2021. “Givy Devira Ramady: RANCANG BANGUN PROTOTIPE PEMBANGKIT … RANCANG BANGUN PROTOTIPE PEMBANGKIT LISTRIK TENAGA PIKOHIDRO BERBASIS KONTROL ARDUINO UNO.” Jurnal Power Elektronik 10(2): 91–96.
Doly brata siregar, Heri suripto, and Purwo Subekti. 2022. “Rancang Bangun Prototype Pembangkit Listrik Tenaga Piko Hidro Terapung Dengan Metode Pahl And Beitz.” ENOTEK : Jurnal Energi dan Inovasi Teknologi 1(2): 10–16.
Fahmi Arif Maulana1, Mohammad Ramdani2, Cahyantari Ekaputri3. 2017. “Prototipe Kontrol Aliran Air Berbasis Prototype of Water Flow Control Based On.” 4(2): 1434–40.
Field, Christopher B., J. Elliott Campbell, and David B. Lobell. 2008. “Biomass Energy: The Scale of the Potential Resource.” Trends in Ecology and Evolution 23(2): 65–72.
Fuada, Syifaul. 2015. “Pengujian Validitas Alat Peraga Pembangkit Sinyal (Oscillator) Untuk Pembelajaran Workshop Instrumentasi Industri.” Prosiding Seminar Nasional Pendidikan (November): 854–61.
Gultom, Sarman Oktovianus. 2018. “Mikroalga: Sumber Energi Terbarukan Masa Depan.” Jurnal Kelautan: Indonesian Journal of Marine Science and Technology 11(1): 95.
Habib, Ahmad, I Made Astra, and Erry Utomo. 2020. “Jurnal Riset Teknologi Dan Inovasi Pendidikan Media Pembelajaran Abad 21 : Kebutuhan Multimedia Interaktif Bagi Guru Dan Siswa Sekolah Dasar Pembelajaran Sesuai Konteks Pembelajaran Abad 21 . Teknologi Hanya Terjadi Untuk m Encapai Tujuan Pembelajaran Efe.” Jurnal Riset Teknologi dan Inovasi Pendidikan 3(1): 25–35.
Ichsan, Ilmi Zajuli, Aryani Kadarwati Dewi, Farah Muthi Hermawati, and Enin Iriani. 2018. “Pembelajaran IPA Dan Lingkungan: Analisis Kebutuhan Media Pembelajaran Pada SD, SMP, SMA Di Tambun Selatan, Bekasi.” JIPVA (Jurnal Pendidikan IPA Veteran) 2(2): 131.
Irfianti, Mustia Dewi, Siti Khanafiyah, and Budi Astuti. 2016. “Perkembangan Karakter Peduli Lingkungan Melalui Model Experiential Learning.” UPEJ Unnes Physics Education Journal 5(3): 72–79.
Jaber, Suaad. 2014. “Environmental Impacts of Wind Energy.” Journal of Clean Energy Technologies 1(3): 251–54.
Jakhongir Turakul ugli, Tulakov. 2019. “International Journal of Engineering and Information Systems (IJEAIS) The Importance of Alternative Solar Energy Sources and the Advantages and Disadvantages of Using Solar Panels in This Process.” 3(4): 60–64.
Jawahar, C. P., and Prawin Angel Michael. 2017. “A Review on Turbines for Micro Hydro Power Plant.” Renewable and Sustainable Energy Reviews 72(January): 882–87.
Li, Kewen et al. 2015. “Comparison of Geothermal with Solar and Wind Power Generation Systems.” Renewable and Sustainable Energy Reviews 42: 1464–74.
Mahesh, Batta. 2018. “Self Flowing Generator.” International Journal of Science and Research (IJSR) 7(4): 259–61.
Markumningsih, S., B. Purwantana, and J. C. Gulo. 2019. “Development of Savonius Type Windmill Prototype as a Learning Medium about Wind Power Plants.” IOP Conference Series: Earth and Environmental Science 355(1).
Nasir, Bilal Abdullah. 2014. “Design Considerations of Micro-Hydro-Electric Power Plant.” Energy Procedia 50: 19–29.
Naziyah, Sifaun, Akhwani, Nafiah, and Sri Hartatik. 2020. “Implementasi Pendidikan Karakter Peduli Lingkungan Di Sekolah Dasar.” Jurnal basicedu 3(2): 524–32.
Nur Afinni Dwi Jayanti, Ummi, Herawati Susilo, and Endang Suarsini. 2017. “Analisis Kebutuhan Bentuk Sumber Belajar Dan Media Pembelajaran Biologi Berbasis Potensi Lokal Untuk Kelas X SMA Di Provinsi Lampung.” Prosiding Seminan Pendidikan IPA Pascasarjana UM 2: 591–99.
Nuriskasari, Isnanda et al. 2021. “Rancang Bangun Pembangkit Listrik Tenaga Air Gambut Menggunakan Logam Bekas Sebagai Elektroda.” Austenit 13(1): 1–7.
Ozdemir, Mahmut Temel, and Ahmet Orhan. 2012. “An Experimental System for Electrical and Mechanical Education: Micro Hydro Power Plant Prototype.” Procedia - Social and Behavioral Sciences 47: 2114–19.
Praptodiyono, Supriyanto et al. 2021. “Design and Prototyping of Electronic Load Controller for Pico Hydropower System.” Jurnal Ilmiah Teknik Elektro Komputer dan Informatika 7(3): 461.
Ridwan, Muhammad, Hadma Yuliani, and Nur Inayah Syar. 2021. “Pengembangan Prototipe Kincir Angin Savonius Menggunakan Bilah Baling Sel Surya Sebagai Media Pembelajaran Fisika.” Jurnal Ilmiah Pendidikan Fisika 5(2): 239.
Rokhman, Taufiqur et al. “HYBRID MIKRO HIDRO DAN SEL SURYA SEBAGAI MEDIA.” 2(1): 1–9.
Shofa, Muhamad Ikhwanus, I Wayan Redhana, and Putu Prima Juniartina. 2020. “Analisis Kebutuhan Pengembangan Media Pembelajaran IPA Berbasis Argument Mapping.” Jurnal Pendidikan dan Pembelajaran Sains Indonesia 3(1): 31–40.
Sugeng, Taufiqur Rokhman, Paridawati, and Agus Sofwan. 2019. “A Design of Building Prototype of Micro Hidro Hybrid Electricity and Solar Cell as A Learning Media for Electrical Engineering Practicum.” Journal of Physics: Conference Series 1364(1).
Tapia, A., D. G. Reina, and P. Millán. 2020. “Optimized Micro-Hydro Power Plants Layout Design Using Messy Genetic Algorithms.” Expert Systems with Applications 159: 113539.
Terjemahan. 2022. “Terjemahan.”
Tim Sekretaris Jenderal Dewan Energi Nasional. 2019. “Indonesia Energy Out Look 2019.” Journal of Chemical Information and Modeling 53(9): 1689–99.
Utami, Noviyani, and Idam Ragil Widianto Atmojo. 2021. “Analisis Kebutuhan Bahan Ajar Digital Dalam Pembelajaran IPA Di Sekolah Dasar.” Jurnal Basicedu 5(6): 6300–6306.
Vassilev, Stanislav V., Christina G. Vassileva, and Vassil S. Vassilev. 2015. “Advantages and Disadvantages of Composition and Properties of Biomass in Comparison with Coal: An Overview.” Fuel 158(May): 330–50.
Veproject1. 2020. Boyle’s Flask Experiments.
Wang, Shifeng, and Sicong Wang. 2015. “Impacts of Wind Energy on Environment: A Review.” Renewable and Sustainable Energy Reviews 49(2015): 437–43.
Yahya, Ahmad Khusairee, Wan Noraishah Wan Abdul Munim, and Zulkifli Othman. 2014. “Pico-Hydro Power Generation Using Dual Pelton Turbines and Single Generator.” Proceedings of the 2014 IEEE 8th International Power Engineering and Optimization Conference, PEOCO 2014 (March): 579–84.
Yamin, Muhammad Richsan, and Karmila Karmila. 2020. “Analisis Kebutuhan Pengembangan Media Pembelajaran Berbasis Cartoon Dalam Pembelajaran IPA Pada Materi Lingkungan Kelas III SD.” Biology Teaching and Learning 2(2): 159–70.
Zebua, Dermawan, Demison Kolago, Yohanes Adi, and Chandra Wijaya. 2019. “Desain Dan Pembuatan Pembangkit Listrik Tenaga Air Hujan Menggunakan Piezoelectric Disk Terbesar Ke-4 Di Dunia . Menurut Badan Pusat Statistik ( Statistik , 2010 ),.” Jurnal TECNOSCIENZA 4(1): 79–94.
