One effort to overcome the energy crisis is to utilize wind energy as a power source. Angina power Plant is a method for generating electrical energy by rotating the angina turbine connected with the generator, the electric energy produced by the generator is stored in an element of electric energy storage (battery). The next one will be channeled to load center like household. The Perarancangan of the horizontal type flat Multiblade Sudu is using a microcontroller that can change the angle of the sudu according to the wind speed so as to maximize the power of wind potential energy. For a sudu angle setting that can adjust the speed of the wind, use two servo motors that have been control by the Arduinouno from the input anemometer so that the angle of the sudu can adjust the wind speed. The results have shown that the turbine-angle arrangement of the turbines can increase the rotation of the wind turbine, thereby increasing the voltage raised in the generator. The optimal angle of the Sudu is at a 15o angle, at a wind speed of 9.5 m/s, resulting in a turbine round of 610 rpm.

Abolfazl Pourrajabian, Peyman Amir, Nazmi Afshar, Mehdi Ahmadizadeh, David Wood, 2015, Aero-structuraldesignandoptimization ofasmallwindturbineblade, journal Elsevier Renewable Energy xxx 1-12

Akhmad Fauzilhaq, Ismoyo Haryanto, 2016. Flutter Suppression Air foil Sudu Turbin Angin Menggunakan Lqg Controller Dan Fuzzy Logic, Jurnal Teknik Mesin S-1, Vol. 4, No. 2

Ditjen EBTKE, 2016. Statistik Energi Baru Terbarukan dan Konservasi Energi Jakarta

Elsa Khunaifi, Rendi Pangestuningtyas, Tanti Heriawati, 2019., Smart WindTurbine Tipe Horizontal Sudu Datar Multiblade Dengan Menggunakan Arduino Sebagai Pengaturan Sudut Sudu Secara Otomatis, jurnal teknik Energi vol.15 no.3

Fontana, A., & Zainal, A. (Ed.), 2016. 19 Tahun Inovasi Ketenagalistrikan Indonesia PLN Berinofasi untuk Indonesia. 1st ed. Jakarta: PLN Research Institute.

Leily. W. Johar, 2018, Kajian kelayakan potensi energi angin untuk dimanfaatkan menjadi energi listrik disekitaran legok-kota jambi, Journal of Electrical Power Control and AutomationVol.1 No.1

Magedi Moh. M.Saad, Norzelawati Asmuin, 2014, Comparison of Horizontal Axis Wind Turbinesand Vertical Axis Wind Turbines, IOSR Journal of Engineering (IOSRJEN) Vol.04, Issue 08 (August.2014), PP 27-30

Mehmet Numan Kaya, Faruk Kose, Derek Ingham, Lin Ma, Mohamed pourkashanian 2018, Aerodynamic performance of a horizontal axis wind turbine with forward and backward swept blades, Journal of Wind Engineering & Industrial Aerodynamics 176 (2018) 166–173

Muhammad Faadhil, Karnowo, Samsudin Anis, 2018., Pengaruh sudut serang terhadap kinerja kincir angin Helix Gorlov dengan penambahan Curveplate, Jurnal Sains dan Teknologi (Sainteknol), Vol 16 No.1

M. Suyanto, T Rusianto, Subandi, 2019, Development of A Household Solar Power Plant: System Using Solar Panels, OP Conf. Series: Materials Science and Engineering conference series 807 (2020) 01200

Priyaningsih, N., Yuniarti, N.. 2017, Analisis Efesiensi generator pada wind turbine, jurnal edukasi elektro, vol 1, no.2

Silvio Simani, 2015, Advance dissues of windturbine mode lingand Control, Journal of Physics: Conference Series 659 (2015) 012001

Syafriyudin, 2018, Characteristic Solar Tree Construction on Solar panel Power Plant, International Conference on Science and Technology (ICST), Atlantis Highlights in Engineering (AHE) vo 1., pp 515-521