RANCANG BANGUN MEKANISME PITCH BLADE CONTROL DAN YAW DRIVE CONTROL TURBIN ANGIN HORISONTAL DIAMETER SUDU 10 M

Delima , Anisa Puspa (2018) RANCANG BANGUN MEKANISME PITCH BLADE CONTROL DAN YAW DRIVE CONTROL TURBIN ANGIN HORISONTAL DIAMETER SUDU 10 M. Undergraduate thesis, undip.

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Abstract

ABSTRAK Salah satu penyebab langkanya sumber daya alam di dunia ini adalah semakin tingginya kebutuhan minyak dan gas (migas). Sementara tingginya migas tidak diimbangi dengan produksi dan sumber energi fosil memiliki kapasitas terbatas. Oleh sebab itu, dibutuhkan sumber daya energi yang terbarukan seperti energi angin, energi matahari, energi panas bumi, energi air, energi biomassa. Dalam kasus ini rancang bangun turbin angin merupakan salah satu solusi untuk mengatasi masalah ini dan kami melanjutkan proyek Tugas Akhir Rancang Bangun Rotor Turbin Angin Horizontal yaitu memfokuskan pada Rancang Bangun Mekanisme Pitch Blade Control dan Yaw Drive Control Turbin Angin Horizontal Diameter Sudu 10 M. Tujuan laporan ini yaitu untuk mengetahui proses pembuatan mekanisme Pitch Blade Control dan Yaw Drive Control berdasarkan diameter sudu dan dapat menghasilkan putaran pada generator dengan mempertimbangkan kapasitas maksimal listrik yang dihasilkan generator dan ketersediaan komponen-komponen itu sendiri. Mekanisme Pitch Blade Control dan Yaw Drive Control diuji kekuatannya berdasarkan pengujian analisis kualitatif (kekuatan tuas; kekuatan baut flens; kekuatan roda gigi yaw drive) dan pengujiaan analisis kuantitatif (reliabilitas). Mekanisme Pitch Blade Control dan Yaw Drive Control memenuhi standar sesuai dengan pengujiaan analisis kualitatif dan pengujiaan analisi kuantitatif. Oleh karena itu mekanisme tersebut dapat dioperasikan jika mekanisme kelistrikan sudah selesai dan sesuai dengan standar untuk lebih menjaga efisiensi Turbin Angin kapasitas 1 KW (Kilo Watt). Kata Kunci : Mekanisme Pitch Blade Control; Mekanisme Yaw Drive Control; Pembuatan; Pengujian Kualitatif; Pengujian Kuantitatif. ix ABSTRACT One of the causes of the scarcity of natural resources in the world is the increasing demand for oil and gas. While the high level of oil and gas is not balanced with the production and sources of fossil energy has limited capacity. Therefore, renewable energy resources are needed such as wind energy, solar energy, geothermal energy, water energy, biomass energy. In this case the design of a wind turbine is one of the solutions to overcome this problem and we continue the Final Project Project for the Design of a Horizontal Wind Turbine Rotor which focuses on the Design of the Pitch Blade Control Mechanism and Yaw Drive Control Mechanism for Horizontal Wind Turbine Diameter of 10 M. The purpose of this report is to determine the process of making the mechanism of Pitch Blade Control and Yaw Drive Control based on blade diameter and can generate rotation on the generator by considering the maximum capacity of electricity produced by the generator and the availability of the components them selves. The Pitch Blade Control and Yaw Drive Control mechanisms are tested for strength based on qualitative analysis testing (lever strength; flange bolt strength; yaw drive gear strength) and testing of quantitative analysis (reliability). The Pitch Blade Control and Yaw Drive Control mechanisms meet standards in accordance with the testing of qualitative analysis and quantitative analysis testing. Therefore, the mechanism can be operated if the electrical mechanism is completed and in accordance with standards to better maintain the efficiency of a 1 KW (Kilo Watt) Wind Turbine capacity. Keywords: Renewble Energy; Wind Turbine; Pitch Blade Control Mechanism; Yaw Drive Control Mechanism; Manufacture; Qualitative Testing; Quantitative Testing.

Item Type:Thesis (Undergraduate)
Subjects:T Technology > TJ Mechanical engineering and machinery
Divisions:Faculty of Engineering > Diploma in Mechanical Engineering
Faculty of Engineering > Diploma in Mechanical Engineering
ID Code:66822
Deposited By:Ms Siti Sundari Vokasi
Deposited On:22 Nov 2018 11:20
Last Modified:22 Nov 2018 11:20

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