Analisa Pengaruh Sudut Kemiringan Panel Surya100 WP Terhadap Daya Listrik

  • Rita Hariningrum Universitas Ivet, Indonesia

References

A. Hasan and A. Hamzah, “Analisa dan Desain Maximum Power Point Tracking Untuk Generator Induksi Pada Aplikasi Sepeda Listrik,” vol. 4, no. 2, pp. 1–9, 2017.

B. A. B. Ii and T. Pustaka, “No Title,” pp. 5–32, 2013.

B. Yuwono, “Optimalisasi Panel Sel Surya dengan Menggunakan Sistem Pelacak Berbasi Mikrokontroler AT89C51,” SURAKARTA, 2005.

D. Kho, “pengertian sel surya,” pp. 5–31, 2016.

K. H. Machmud Effendy, Nur Alif Mardiyah, “Implementasi Maximum Power Point Tracking pada Photovoltaic Berbasis P&O-Fuzzy,” vol. 6, no. 1, pp. 2–7, 2017.

M. Widodo, “Pengujian Sudut Kemiringan Optimal Photovoltaic di Wilayah Purwokerto” Purwokerto, 2017.

Planning & Installing Solar Thermal Systems. London: earthscan.

P. Primandaru, “Energi Surya Oleh:,” Palembang, 2012.

P. S. Rusminto Tjatur Widodo, Rugianto, Asmuniv, “Maximum Power Point Tracker Sel Surya Menggunakan Algoritma Perturb and Observe” no. 1.

Ted. J. Jansen, Teknologi Rekayasa Surya. Pradnya. Paramita, 1995.

T. T. Gultom, “Pemanfaatan photovoltaic sebagai pembangkit listrik tenaga surya,” pp. 33–42.

V. Quaschning, Renewable Energy and Climate Change. Germany: Berlin University of Applied Systems HTW, 2010.

W. A. B. Duffie, John A., Solar Engineering of Thermal Processes, 3rd Editio. Madison: Solar Energy Laboratory University of Wisconsin.

Young, W.D. and Freedman, R.A., 1996: University Physics, ninth edition, Addison-Wesley, California.
Published
2021-02-01
How to Cite
HARININGRUM, Rita. Analisa Pengaruh Sudut Kemiringan Panel Surya100 WP Terhadap Daya Listrik. Marine Science and Technology Journal, [S.l.], v. 1, n. 2, p. 67-76, feb. 2021. ISSN 2746-1580. Available at: <http://e-journal.ivet.ac.id/index.php/maristec/article/view/1585>. Date accessed: 06 mar. 2021. doi: https://doi.org/10.31331/maristec.v1i2.1585.