Analisis Perubahan Tekanan Udara Perangkat Oscillating Water Column dengan Metode phi-Buchingham
Abstract
ABSTRACT
The increase in human population along with the times and technology must be increasingly difficult to separate from energy needs, one of which is the need for electrical energy. One source of energy that has not been widely utilized is ocean wave energy. Ocean wave power plants basically have a working principle, namely converting ocean wave energy (mechanical energy) into electrical energy. One of the wave energy conversion system technologies is the Oscillating water column (OWC) technology. Technology Oscillating Water Coloumn this, using the air pressure from the watertight chamber to movewells turbine This turbine will then be used to generate electricity. Forms of studies that can be carried out to study the phenomenon of changes in device air pressure Oscillating Water Coloumn is mathematical modeling. One of the mathematical modeling can be done by phi-Buchingham. Using Buckingham's Pi theorem dimensional analysis can make it easier to analyze and make experimental steps faster and more focused.
Keywords: Ocean waves, Oscillating Water Coloumn (OWC), Barometric pressure, phi-Buchingham
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References
Aji, N., Ekawati, E., & Haq, I. N. (2021). The Simulation of Wave Energy Conversion by Floating Point Absorber Buoy in Indonesian Sea Waves. (ICA), 112–117.
Azizie, M. R., Wicaksono, D. A., & Fitriana, F. (2020a). Analisis Energi Gelombang Air Laut Menggunakan Teknologi Oscillating Water Column. Jurnal Teknik Elektro Dan Komputasi (ELKOM), 2(1), 1–10.
A. T Pradanan, M. (2020, Desember). Perkembangan Teknologi Oscillating Water Collumn Sebagai Pembangkit Listrik Tenaga Gelombang Laut Di Berbagai Negara Halaman 1-Kompasiana.com.
Baonguyen 1994. wordpress. Com. 15 November 2012. Renewable Energy (Overtopping Device). Dari https://baonguyen1994.wordpress.com/introduction-to-wave-energy/ocean-wave-technologies/overtopping-devices/
Gayathri, R., Naik, N., & Behera, H. (n.d.). Wave Power Extraction by a Dual Owc Chambers Over an Undulated Bottom. Available at SSRN 4171629.
Hagie S. Nahar, Y. (2021, January 26). Potensi Pengembangan Oscillating Water Column di Pulau Rote Halaman 4-Kompasiana.com.
Jasron, J. U., Soeparmani, S., Yuliati, L., & Darmadi, D. B. (2020). Comparison of the performance of oscillating water column devices based on arrangements of water columns. Journal of Mechanical Engineering and Sciences, 14(3), 7082–7093.
Ludji, J. F., Koehuan, V. A., Nurhayati. (2014). Analisis Efisiensi Sistem Osilator Kolom Air sebagai Pembangkit Daya Tenaga Gelombang Laut. Jurnal Teknik Mesin Undana (LONTAR). 01 (02):18-25.
Rahmatullah, A. (2013). Studi Perencanaan Pembangkit Listrik Tenaga Gelombang Laut Tipe Oscillating Water Column (OWC) Di Pantai Bandealit Jember [PhD Thesis]. Institut Teknologi Sepuluh Nopember.
Rofarsyam, R., Purwantana, B., & Bintoro, N. (2012). Penerapan Analisis Dimensi dalam Rancang Bangun Mesin Pembelah Biji Kedelai (Glycine max L.) Sistem Gesek Putar. Agritech, 32(2).
Siregar, C. A. (2020). Pembuatan Alat Konversi Energi Memanfaatkan Gelombang Dengan Menggunakan Teknik Kolom Osilasi. Jurnal Mesil (Mesin, Elektro, Sipil). 1 (2):107-115.
Soebiyakto, G., Finahari, N., & Rubiono, G. (2021a). Analisis Dimensional Pemodelan Keseimbangan Berjalan di Atas Balok Titian. Fakultas Olahraga dan Kesehatan, Universitas PGRI Banyuwangi. 14, 15.
Solage, R. D. 2020. Wave energy by R.D. Solage. Diakses pada 12 April 2020.
Thomson, R. C., Harrison, G. P., & Chick, J. P. (2011). Full life cycle assessment of a wave energy converter. IET Conference on Renewable Power Generation (RPG 2011), 63–63..
Wijaya, I. W. A. (2010). Pembangkit Listrik Tenaga Gelombang Laut Menggunakan Teknologi Oscillating Water Column Di Perairan Bali. Jurusan Teknik Elektro, Fakultas Teknik, Universitas Udayana 9, 10.
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