Pemasangan Panel Solar untuk Penerangan Lampu Petani Serai Wangi di Desa Siabu, Salo, Kampar

  • azriyenni azhari zakri Universitas Riau
Keywords: battery; lighting; solar panel

Abstract

Lack of electricity in the rural areas is quite limited to farmers in the lemongrass plantation in Siabu, Salo, Kampar. Their problem provides an idea to assemble solar panels for lighting supplies for lemongrass farmers. The method used for this activity is; field survey, assembly, calibration, and testing. In the test of the battery charging process has been carried out.  Batteries charging are utilized 20 Ah and 60 Ah. The solar panels used are 2*50 Wp, Solar Charger Controller, battery, and inverter. The battery of 20 Ah load test results has an electricity of 30 Watt. The maximum battery voltage measured at 12.8 Volt with a load duration of 4 hours. The loading test is also carried out for a battery of 60 Ah has the same load that is a 30 Watt. In this test, the voltage is measured 12.8 Volt, a duration of electricity use for 11 hours.

Downloads

Download data is not yet available.

References

Amanda Khaira Perdana, & Hasyim Rosma, I. (2017). Analisis Kalibrasi Sensor BH1750 Untuk Mengukur Radiasi Matahari Di Pekanbaru. SeMNASTeK 2017, 1–6.

Anhar, W., Akbar, S., Laksito, A., Huda, N., Mesin, J. T., Balikpapan, P. N., Administrasi, J., Publik, K., Isipol, F., & Tridharma, U. (2018). Penerapan Lampu Penerangan Jalan Umum Berbasis Solar System di RT 50 Kelurahan Sepinggan Kota. KACANEGARA Jurnal Pengabdian Pada Masyarakat, 67–74.

Azriyenni. (2019). Teknik ANFIS untuk Prediksi Sistem Fotovoltaik. Indomedia Pustaka.

Azriyenni A.Z, Hanggun S, Salhazan N, N. (2019). Alat Otomatis Pengisi Baterai Bersumber Solar Sel Menggunakan Pengendali Arduino.

BR, N. R. (2017). Analisis Dan Efisiensi Daya Instalasi Penerangan Jalan Umum Menggunakan Solar Cell di Kabupaten Lamongan. Jurnal Elektro, 2(2), 7. https://doi.org/10.30736/je.v2i2.80

Hamed Nademi, L. E. N., S. W. (2017). An Accurate MPPT Scheme for Photovoltaic Modular Based Conversion Units: A Robust Sensorless Predictive Approach.

Hasyim Asy’ari, A. R., F. S. P. (2014). Pemanfaatan Solar Cell dengan PLN Sebagai Sumber Energi Listrik Rumah Tinggal. Jurnal Emitor.

K. Mizuki, H. Y. (2014). Maximizing Power-Supply Time Of Dc Power System With Photovoltaics And Fuel Cells. IEEE.

M. B. Djaufani, N. H. (2015). Perancangan Dan Realisasi Kebutuhan Kapasitas Baterai Untuk Beban Pompa Air 125 Watt Menggunakan Pembangkit Listrik Tenaga Surya. Jurnal Reka Elkomika, 3(2), 75–86.

Seme, S., Srpčič, G., Kavšek, D., Božičnik, S., Letnik, T., Praunseis, Z., Štumberger, B., & Hadžiselimović, M. (2017). Dual-axis photovoltaic tracking system – Design and experimental investigation. Energy, 139.

Simanullang, D. P. H., Zakri, A. A., Teknik, F., Program, D., Teknik, S., & Teknik, F. (2017). Perancangan Energi Listrik Berbasis Fotovoltaik untuk Alat Rumah Tangga Berkapasitas 150 Watt. SeMNASTeK.

Zakri, A. A., Nurhalim, N., Simanulang, D. P. H., & Tribowo, I. (2018). Photovoltaic Modeling Methods Based on Matlab Simulink Implementation. Sinergi, 22(1).

Published
2020-11-27
How to Cite
azhari zakri, azriyenni. (2020). Pemasangan Panel Solar untuk Penerangan Lampu Petani Serai Wangi di Desa Siabu, Salo, Kampar. Dinamisia : Jurnal Pengabdian Kepada Masyarakat, 5(1). https://doi.org/10.31849/dinamisia.v5i1.4570
Abstract viewed = 67 times
PDF downloaded = 56 times