Analisa Performansi Photovoltaic 200 WP dan Pompa Air Dc pada Implementasi Sistem Pembangkit Listrik Tenaga Surya (PLTS)

Marshal Jawahar Al Nehru, Bengawan Alfaresi, Feby Ardianto

Abstract


Water is one of the most widely used natural products by humans, such as for daily needs for drinking, cooking, bathing, washing and others, even industry, agriculture, offices all need water. Water is a basic human need, but it is still found in some areas with limited and difficult to reach water sources. This study aims to analyze the performance of photovoltaic (solar panels) and the results of the electric pump in the implementation of a solar power generation system (PLTS). In this study, designing a solar power plant (PLTS) that is connected to a solar charge controller and connected directly to a water pump system using a battery as a source. Based on the results of the study, it shows that the higher the solar radiation, the higher the output power of the 200 Wp PV module. Likewise, changes in reservoir height greatly affect changes in water discharge and currents. The higher the reservoir well distance, the smaller the water discharge and the higher the reservoir well distance also affects the increase in current.


Keywords


Dc pump; 200 Wp photo photovoltaic module; PLTS, Solar cell

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References


Aminuddin, J., Nurhayati, & Widiyani, A. (2019). Modifikasi pompa air menggunakan kincir kecepatan rendah sebagai tenaga penggerak. Journal of Islamic Science and Technology , 5 (1).

Gustian, E., Triyanto, D., & Tedy, R. (2016). SISTEM PENERANGAN RUMAH OTOMATIS BERDASARKAN. Jurnal Coding, Sistem Komputer Untan , 86-96.

Nainggolan, B., Inaswara, F., Pratiwi, G., & Ramadhan, H. (2016). Rancang Bangun Sepeda Listrik Menggunakan Panel Surya Sebagai Pengisi Baterai. POLITEKNOLOGI , 264-272.

Napitulu RAM, S. S. (2017). Pengaruh Material Monokristal dan Polikristal Terhadap Karakteristik Sel Surya 20 Wp dengan Tracking Sistem dua Sumbu. Laporan Penelitian Universitas HKBP Nomensen medan , 45-65.

Pribadi, A. (2016). Pembangkit Listrik Tenaga Surya dengan Rotasi Dinamis. Jurusan Teknik Elektro Fakultas Teknik Universitas Negri Malang , 34-43.

Sinaga, R (2011). Pengaruh parameter lingkungan dan penempatan posisi modul terhadap luaran energi PLTS menggunakan solar Cell 50 Wp, 12 Volt. Studia Teknologia (SAINTEKS) , 178-187.

Rahardjo 1, F. 1. (2014). Analisis Potensi Pembangkit listrik Tenaga Surya di Indonesia. P3TKKE, BPPT , 43-52.

Ramadani, B. (2018). Instalasi Pembangkit Listrik Tenaga Surya Dos & don'ts. Deutsche Gesellschoft fur Internationale Zusammenarbeit (GIZ) GmbH Energising Develovment (Endev) Indonesia Jakarta , 23-28.

Santhiarsa, G. I., & Kusuma, G. I. (2005). KAJIAN ENERGI SURYA UNTUK PEMBANGKIT TENAGA LISTRI. Kajian Energi Surya , 29-33.

Satwiko, S. (2014). Uji Karakteristik Sel Surya Pada Sistem Pembangkit Tenaga Hybird. Prosiding Pertemuan Ilmiah XXVI HFI Jateng & DIY, Purworejo 14 April 2012 , 0853-0823.

Sinaga R. Prastowo, S. B. (2019). Analysis of Barriers in Supplying Electricity Using Interpretative Structural Modeling. Energi Strategy Reviews , 11-17.

Sinaga R. Tambuhan AH, S. C. (2017). Analisis Alternatif Solusi Penyediaan Sumber Energi Listrik. Studi Kasus Kabupaten Kupang , 283-290.

Widaya, ,. G. (2012). PEMANFAATAN ENERGI SURYA. JPTK, UNDIKSHA , 9 (1), 37 - 46.




DOI: http://dx.doi.org/10.33087/jiubj.v21i3.1637

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