Studi Eksperimen Kinerja Turbin Angin Savonius Dengan Instalasi Silinder Sirkular Di Samping Advancing Blade Dan Di Depan Returning Blade “Studi Kasus untuk Jarak Y/D = 1,71 dan S/D = 1,71; dengan Ukuran Silinder Sirkular d/D = 0,5 pada Kecepatan Angin 4; 5; 6; 7 m/s”

Sutiasa, Delfiando (2022) Studi Eksperimen Kinerja Turbin Angin Savonius Dengan Instalasi Silinder Sirkular Di Samping Advancing Blade Dan Di Depan Returning Blade “Studi Kasus untuk Jarak Y/D = 1,71 dan S/D = 1,71; dengan Ukuran Silinder Sirkular d/D = 0,5 pada Kecepatan Angin 4; 5; 6; 7 m/s”. Other thesis, Institut Teknologi Sepuluh Nopember.

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Abstract

Indonesia adalah salah satu negara dengan penduduk terpadat di Asia Tenggara, sehingga meningkatkan kebutuhan energi listrik nasional. Pemenuhan kebutuhan energi listrik tersebut masih disuplai oleh batu bara dan bahan bakar minyak sebagai sumber energi utama, di mana diperlukan energi yang lebih bersih seperti penggunaan energi angin. Turbin angin diperlukan untuk mengonversi energi angin tersebut. Penelitian ini dilakukan terhadap turbin angin Savonius, yang digunakan sebagai pengubah energi kinetik angin menjadi energi mekanikal. Turbin angin Savonius memiliki keuntungan dapat dioperasikan pada tip speed ratio (λ) yang rendah, namun memilki efisiensi paling rendah dibandingkan turbin lainnya. Penelitian ini dilakukan guna meningkatkan efisiensi turbin dengan konfigurasi penelitian pertama yaitu dipasangnya silinder sirkular di samping advancing blade, serta konfigurasi penelitian kedua dengan dipasangnya silinder sirkular di samping advancing blade dan di depan returning blade. Tujuan penelitian ini dicapai dengan dilakukannya penelitian secara eksperimental. Turbin angin Savonius yang digunakan berdiameter sudu (D) sebesar 165,2 mm, tinggi turbin (H) sebesar 295 mm, diameter poros (b) sebesar 19 mm, serta diameter endplate sebesar 333,7 mm. Silinder sirkular yang digunakan sebagai pengontrol pasif aliran memilki rasio (d/D) = 0,5. Silinder sirkular tersebut ditempatkan di samping advancing blade pada jarak (Y/D) 1,71, serta di depan returning blade (S/D) sebesar 1,71. Penelitian dilakukan dengan diivariasikannya kecepatan angin sebesar 4; 5; 6; dan 7 m/s melalui axial fan sebagai sumber angin. Pengukuran performa turbin dilakukan dengan pengukuran torsi dinamis dengan digunakannya brakedynamometer, torsi statis dengan torque meter, serta kecepatan rotasi turbin dengan tachometer. Hasil penelitian ditunjukkan bahwa dilakukannya penelitian pada konfigurasi pertama dengan dipasangnya silinder di samping advancing blade pada Y/D = 1,71 dan penelitian konfigurasi ke dua dengan dipasangnya silinder di samping advancing blade pada Y/D = 1,71 serta di depan returning blade pada S/D = 1,71 meningkatkan performa dan self starting terhadap turbin angin Savonius konvensional. Peningkatan CP(MAX) paling besar pada penelitian ini diperoleh pada penelitian konfigurasi ke dua pada variasi kecepatan 5 m/s sebesar 21,67% terhadap turbin angin Savonius konvensional, dengan nilai CP(MAX) = 0,0687 pada λ = 0,594. Peningkatan CM(MAX) paling tinggi pada penelitian ini diperoleh pada konfigurasi ke dua pada variasi kecepatan 5 m/s sebesar 28,781% terhadap turbin angin Savonius konvensional, dengan nilai CM(MAX) = 0,172 pada λ = 0. Peningkatan kemampuan self starting terjadi pada ke dua jenis konfigurasi penelitian pada posisi (θ) tertentu, namun belum memberikan kemampuan self starting pada seluruh posisi sudut sudu (θ).
============================================================================================================================================ Indonesia is one of the most densely populated countries in Southeast Asia, which will be increasing its national electricity demand. However, to meet the electricity demand, it istill supplied by coal and fuel as primary energy sources, where need a cleaner energy source such as wind energy. The wind turbine is required to convert those wind energy. This experiment was run by using a Savonius wind turbine, which is used for converting wind kinetic energy into mechanical energy. The Savonius wind turbine has the advantage is can be operated on a lower tip speed ratio, but has the lowest efficiency rather than other wind turbines. This experiment was conducted for escalating turbine efficiency with the first configuration by the installation of a circular cylinder beside the advancing blade, and the second configuration by the installation of a circular cylinder beside the advancing blade and in front of the returning blade. The objectives to achieved in this study carried out using experimental method. The Savonius wind turbine that used has a blade diameter (D) of 165.2 mm, a turbine height (H) of 295 mm, a shaft diameter (b) of 19 mm, and an endplate diameter of 333.7 mm. The circular cylinder used as a passive flow controller has a diameter of (d) 82.6 mm or (d/D) = 0.5. The circular cylinder is placed next to the advancing blade at a distance (Y/D) of 1.71 and in front of the returning blade (S/D) of 1.71. The experiment was carried out by varying the wind speed by 4; 5; 6; and 7 m/s through an axial fan as a wind supply. Turbine performance measurement is held out by measuring dynamic torque using a brake dynamometer, static torque using a torque meter, and turbine rotation speed using a tachometer. The study outcome exposed that the first configuration by installing a circular cylinder beside the advancing blade at Y/D = 1.71 and the second configuration by installing a circular cylinder beside the advancing blade at Y/D = 1.71 and installing a circular cylinder in front of the returning blade at S/D = 1.71, have been growing up turbine performance and self-starting ability compared to the conventional Savonius wind turbine. The highest CP(MAX) escalation towards the conventional Savonius wind turbine in this study was acquired on the second configuration with 5 m/s of wind speed variation by 21.67%, with the C P(MAX) value = 0.0687 at λ = 0.594. The highest C M(MAX) escalation towards the conventional Savonius wind turbine in this study was acquired on the second configuration with 5 m/s of wind speed variation by 28.781%, with the C M(MAX) value = 0.172 at λ = 0. The self starting ability was intensified in both study configurations at specified positions (θ) but however does not give the self starting ability for the entire angular blade position (θ).

Item Type:	Thesis (Other)
Uncontrolled Keywords:	Advancing blade, Coefficient of Moment, Coefficient of Power, Coefficient of Static Torque, Returning blade, Silinder sirkular, Turbin angin Savonius
Subjects:	T Technology > TJ Mechanical engineering and machinery > TJ828 Wind turbines
Divisions:	Faculty of Industrial Technology and Systems Engineering (INDSYS) > Mechanical Engineering > 21201-(S1) Undergraduate Thesis
Depositing User:	Anis Wulandari
Date Deposited:	22 Sep 2022 07:28
Last Modified:	24 Sep 2025 11:44
URI:	http://repository.its.ac.id/id/eprint/95018

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