Simulasi Perancangan Solar Tracker Pada Pembangkit Listrik Wind-Solar

Dani Suryana Setiyawan, Djuniadi Djuniadi, Esa Apriaskar

Abstract


The research was conducted to explain how to design a simulation of Solar tracker on Wind-Solar hybrid technology. The simulation were carried out with proteus software simulation. Solar tracker has four LDR sensors and an Arduino Uno Microcontroller which assist the Solar tracker to estimating position of the sun to use a servo motor for solar cell movement. For the result, When the upper light intensity (LDR 1 and LDR 2) is greater than the bottom (LDR 3 and LDR 4), solar cell will move upwards, and vice versa. When the light intensity of the left (LDR 1 and LDR 3) is greater than the right (LDR 2 and LDR 4), solar cell will move to the left, and vice versa. From the research, it could concluded that Solar Tracker can be applied to Wind-Solar technology solar cells


Keywords


Solar Cell, Wind Solar, Solar Tracker

Full Text:

PDF

References


Adijarto, Waskita. 2020. “Pengertian Sistem Embedded.” 2020. https://kv.stei.itb.ac.id/display/EL4121T2020/Pengertian+Sistem+Embedded.

Andasto, Tatyantoro. 2020. “Simulasi Kontrol Motor Servo Menggunakan Arduino.” 2020. https://www.youtube.com/watch?v=comDRVHUKYA&t=327s.

Hasan, Ola Dwi Sandra, Ridho Hantoro, and Gunawan Nugroho. 2013. “Studi Eksperimental Vertical Axis Winmd Turbine Tipe Savonius Dengan Variasi Jumlah Fin Pada Sudu.” Jurnal Teknik POMITS 2 (2): 350–55.

Kho, Dickson. n.d. “Pengertian Sel Surya (Solar Cell) Dan Prinsip Kerjanya.” https://teknikelektronika.com/pengertian-sel-surya-solar-cell-prinsip-kerja-sel-surya/.

Latief, Karwati Putu. 2019. “Gerak Semu Matahari, Penyebab Cuaca Panas Ekstrim Di Indonesia.” 2019. https://www.harapanrakyat.com/2019/10/gerak-semu-matahari/.

Oby, Zamisyak. 2020. “Penjelasan Bagian Dan Pin Arduino Uno.” http://kelasarduino.com/penjelasan-bagian-dan-pin-arduino-uno/.

Rasyid, Abdurrahman. 2019. “Sensor Cahaya LDR (Light Dependent Resistor).” 2019.

Wang, Ting. 2015. “The Design of Charging Controller in Wind-Photovoltaic Hybrid Power Generation System,” no. Cmes: 402–4.

A. Ndiaye, C. M. F. Kébé, V. Sambou, and P. A. Ndiaye, “Development of a Charge Controller Dedicated to the Small Wind Turbine System,” Energy Environ. Res., vol. 4, no. 3, pp. 68–77, 2014, doi: 10.5539/eer.v4n3p68.

M. K. Johari, M. A. A. Jalil, M. Faizal, and M. Shariff, “Comparison of horizontal axis wind turbine ( HAWT ) and vertical axis wind turbine ( VAWT ),” vol. 74, no. October, pp. 74–80, 2018, doi: 10.14419/ijet.v7i4.13.21333.

M. Alsayid, A. Alramadhan, M. Alwesmi, M. Almansoor, and A. Alnaseer, “Department of Mechanical Engineering Senior Design Project Report Helical Wind Turbine,” 2016.

P. K. Das, M. C. Lavanya, K. Boopathi, and G. Giridhar, “WIND WIND - SOLAR HYBRID HYBRID ENERGY ENERGY PRODUCTION PRODUCTION ANALYSIS ANALYSIS REPORT,” 2016.

T. Abrar, Q. Mary, M. Shabbir, S. Salman, and O. Siddiqui, “Wind & solar renewable energy,” no. June 2016, 2010, doi: 10.13140/RG.2.1.2863.3203.

S. Anglistia, “PROTOTYPE SISTEM PELACAKAN SINAR MATAHARI PADA SISTEM,” 2018.

N. Publikasi et al., “PROTOTYPE KENDALI OTOMATIS PENERANGAN TAMAN,” 2018.

N. N. Hamidah, “Solar Tracker,” 2017. https://create.arduino.cc/projecthub/nafianh/solar-tracker-a71f8e?ref=user&ref_id=248225&offset=0

Riouch, T, A Alamery, and C Nichita. 2015. “Control of Battery Energy Storage System for Wind Turbine Based on DFIG during Symmetrical Grid Fault Control of Battery Energy Storage System for Wind Turbine Based on DFIG during Symmetrical Grid Fault.” In , 13–18.




DOI: http://dx.doi.org/10.22373/crc.v5i2.8555

Refbacks

  • There are currently no refbacks.


Copyright (c) 2021 Dani Suryana Setiyawan, Djuniadi, Esa Apriaskar

Creative Commons License
This work is licensed under a Creative Commons Attribution-ShareAlike 4.0 International License.

Circuit has been indexed by:

  

     

© CIRCUIT: Jurnal Ilmiah Pendidikan Teknik Elektro Published by Faculty of Teaching and Training, UIN Ar-Raniry, Banda Aceh, Indonesia.

Creative Commons License
CIRCUIT: Jurnal Ilmiah Pendidikan Teknik Elektro Creative Commons Attribution-ShareAlike 4.0 International License.